U.S. patent application number 14/969248 was filed with the patent office on 2017-06-15 for metal wood club.
This patent application is currently assigned to Acushnet Company. The applicant listed for this patent is Acushnet Company. Invention is credited to Thomas Orrin Bennett, David S. Cornelius, Richard Sanchez.
Application Number | 20170165534 14/969248 |
Document ID | / |
Family ID | 59018834 |
Filed Date | 2017-06-15 |
United States Patent
Application |
20170165534 |
Kind Code |
A1 |
Sanchez; Richard ; et
al. |
June 15, 2017 |
METAL WOOD CLUB
Abstract
A golf club head having a body having a first receptacle having
a first aperture, a second receptacle having a second aperture, and
a first weight retention member affixed to the first receptacle,
the first weight retention member having an opening, at least a
portion of the first weight retention member extending through the
first aperture into the hollow golf club interior; a second weight
retention member affixed to the second receptacle, at least a
portion of the second weight retention member extending through the
second aperture into the hollow golf club interior; and a third
weight retention member extending between the first weight
retention member and the second weight retention member, the third
weight retention member extending through the opening of the first
weight retention member, at least a portion of the third weight
retention member located in the hollow golf club head interior.
Inventors: |
Sanchez; Richard; (Temecula,
CA) ; Bennett; Thomas Orrin; (Carlsbad, CA) ;
Cornelius; David S.; (Carlsbad, CA) |
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Applicant: |
Name |
City |
State |
Country |
Type |
Acushnet Company |
Fairhaven |
MA |
US |
|
|
Assignee: |
Acushnet Company
Fairhaven
MA
|
Family ID: |
59018834 |
Appl. No.: |
14/969248 |
Filed: |
December 15, 2015 |
Related U.S. Patent Documents
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Application
Number |
Filing Date |
Patent Number |
|
|
14966316 |
Dec 11, 2015 |
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14969248 |
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Current U.S.
Class: |
1/1 |
Current CPC
Class: |
A63B 53/0433 20200801;
A63B 60/02 20151001; A63B 53/0466 20130101; A63B 2053/0491
20130101 |
International
Class: |
A63B 53/04 20060101
A63B053/04 |
Claims
1. A golf club head comprising: a body having a face, a sole, a
crown, and a skirt joining said face, sole and crown; a hollow golf
club interior within said body; said body having a coordinate
system with an x-axis located horizontal to the club face, a y-axis
located vertical to the club face, and a z-axis located through the
club face; said body having a center of gravity; wherein said body
comprises a first receptacle, said first receptacle comprising a
first aperture; wherein said body comprises a second receptacle,
said second receptacle comprising a second aperture; and a weight
retention system configured to receive a weighted insert, said
weight retention system comprising: a first weight retention member
affixed to said first receptacle, said first weight retention
member comprising an opening, at least a portion of said first
weight retention member extending through said first aperture into
said hollow golf club interior; a second weight retention member
affixed to said second receptacle, at least a portion of said
second weight retention member extending through said second
aperture into said hollow golf club interior; and a third weight
retention member extending between said first weight retention
member and said second weight retention member, said third weight
retention member extending through said opening of said first
weight retention member, at least a portion of said third weight
retention member located in said hollow golf club head interior;
wherein a majority of said body, by weight, is formed from a first
material having a first density; wherein said weighted insert
comprises a heavy end and a lighter end, wherein said third weight
retention member is configured to receive said weighted insert in
both a first configuration and a second configuration, wherein said
first configuration comprises said heavy end of said weighted
insert adjacent said second weight retention member and said second
configuration comprises said lighter end of said weighted insert
adjacent said second weight retention member; wherein at least a
portion of said first receptacle is located on said sole; wherein
at least a portion of said second receptacle is located on said
sole; wherein said first weight retention member is permanently
affixed to said first receptacle and wherein said second weight
retention member is permanently affixed to said second receptacle;
wherein said first receptacle includes a first shelf, wherein said
first weight retention member includes an inner surface and an
outer surface opposite said inner surface, wherein said inner
surface of said first weight retention member abuts said first
shelf, and wherein at least a portion of said outer surface of said
first weight retention member is substantially flush with an
external surface of said sole; wherein said first weight retention
member and said second weight retention member are formed from a
second material, said second material having a second density and
wherein said second density is less than said first density;
wherein said second receptacle comprises a second shelf, wherein at
least a portion of said first shelf is angled relative to at least
a portion of said second shelf, wherein said third weight retention
member couples said first weight retention member to said second
weight retention member, forcing said first weight retention member
against said first shelf and said second weight retention member
against said second shelf and wherein said first shelf and said
second shelf are recessed towards said hollow golf club interior
from said sole.
2. A golf club head comprising: a body having a face, a sole, a
crown, and a skirt joining said face, sole and crown; a hollow golf
club interior within said body; said body having a coordinate
system with an x-axis located horizontal to the club face, a y-axis
located vertical to the club face, and a z-axis located through the
club face; said body having a center of gravity; wherein said body
comprises a first receptacle, said first receptacle comprising a
first aperture; wherein said body comprises a second receptacle,
said second receptacle comprising a second aperture; and a weight
retention system configured to receive a weighted insert, said
weight retention system comprising: a first weight retention member
affixed to said first receptacle, said first weight retention
member comprising an opening, at least a portion of said first
weight retention member extending through said first aperture into
said hollow golf club interior; a second weight retention member
affixed to said second receptacle, at least a portion of said
second weight retention member extending through said second
aperture into said hollow golf club interior; and a third weight
retention member extending between said first weight retention
member and said second weight retention member, said third weight
retention member extending through said opening of said first
weight retention member, at least a portion of said third weight
retention member located in said hollow golf club head interior;
wherein a majority of said body, by weight, is formed from a first
material having a first density; wherein said first weight
retention member and said second weight retention member are formed
from a second material, said second material having a second
density; wherein said second density is less than said first
density.
3. The golf club head of claim 2, wherein at least a portion of
said first receptacle is located on said sole.
4. The golf club head of claim 3, wherein at least a portion of
said second receptacle is located on said sole.
5. The golf club head of claim 4, wherein at least a portion of
said first receptacle and at least a portion of said second
receptacle are located on said skirt.
6. The golf club head of claim 2, wherein said first weight
retention member is permanently affixed to said first receptacle
and wherein said second weight retention member is permanently
affixed to said second receptacle.
7. The golf club head of claim 3, wherein said first receptacle
includes a first shelf, wherein said first weight retention member
includes an inner surface and an outer surface opposite said inner
surface, wherein said inner surface of said first weight retention
member abuts said first shelf, and wherein at least a portion of
said outer surface of said first weight retention member is
substantially flush with an external surface of said sole.
8. The golf club head of claim 2, wherein said first weight
retention member and said second weight retention member are formed
fiber reinforced plastic.
9. The golf club head of claim 2, wherein said weighted insert
comprises a heavy end and a lighter end, wherein said third weight
retention member is configured to receive said weighted insert in
both a first configuration and a second configuration, wherein said
first configuration comprises said heavy end of said weighted
insert adjacent said second weight retention member and said second
configuration comprises said lighter end of said weighted insert
adjacent said second weight retention member.
10. The golf club head of claim 7, wherein said second receptacle
comprises a second shelf, wherein at least a portion of said first
shelf is angled relative to at least a portion of said second
shelf, wherein said third weight retention member couples said
first weight retention member to said second weight retention
member, forcing said first weight retention member against said
first shelf and said second weight retention member against said
second shelf.
11. The golf club head of claim 10, wherein said first shelf and
said second shelf are recessed towards said hollow golf club
interior from said sole.
12. A golf club head comprising: a body having a face, a sole, a
crown, and a skirt joining said face, sole and crown; a hollow golf
club interior within said body; said body having a coordinate
system with an x-axis located horizontal to the club face, a y-axis
located vertical to the club face, and a z-axis located through the
club face; said body having a center of gravity; wherein said body
comprises a first receptacle, said first receptacle comprising a
first aperture; wherein said body comprises a second receptacle,
said second receptacle comprising a second aperture; and a weight
retention system configured to receive a weighted insert, said
weight retention system comprising: a first weight retention member
affixed to said first receptacle, said first weight retention
member comprising an opening, at least a portion of said first
weight retention member extending through said first aperture into
said hollow golf club interior; a second weight retention member
affixed to said second receptacle, at least a portion of said
second weight retention member extending through said second
aperture into said hollow golf club interior; and a third weight
retention member extending between said first weight retention
member and said second weight retention member, said third weight
retention member extending through said opening of said first
weight retention member, at least a portion of said third weight
retention member located in said hollow golf club head interior;
wherein a majority of said body, by weight, is formed from a first
material having a first density; wherein said weighted insert
comprises a heavy end and a lighter end, wherein said third weight
retention member is configured to receive said weighted insert in
both a first configuration and a second configuration, wherein said
first configuration comprises said heavy end of said weighted
insert adjacent said second weight retention member and said second
configuration comprises said lighter end of said weighted insert
adjacent said second weight retention member.
13. The golf club head of claim 12, wherein at least a portion of
said first receptacle is located on said sole.
14. The golf club head of claim 13, wherein at least a portion of
said second receptacle is located on said sole.
15. The golf club head of claim 14, wherein at least a portion of
said first receptacle and at least a portion of said second
receptacle are located on said skirt.
16. The golf club head of claim 12, wherein said first weight
retention member is permanently affixed to said first receptacle
and wherein said second weight retention member is permanently
affixed to said second receptacle.
17. The golf club head of claim 13, wherein said first receptacle
includes a first shelf, wherein said first weight retention member
includes an inner surface and an outer surface opposite said inner
surface, wherein said inner surface of said first weight retention
member abuts said first shelf, and wherein at least a portion of
said outer surface of said first weight retention member is
substantially flush with an external surface of said sole.
18. The golf club head of claim 12, wherein said first weight
retention member and said second weight retention member are formed
fiber reinforced plastic.
19. The golf club head of claim 12, wherein said first weight
retention member and said second weight retention member are formed
from a second material, said second material having a second
density and wherein said second density is less than said first
density.
20. The golf club head of claim 7, wherein said second receptacle
comprises a second shelf, wherein at least a portion of said first
shelf is angled relative to at least a portion of said second
shelf, wherein said third weight retention member couples said
first weight retention member to said second weight retention
member, forcing said first weight retention member against said
first shelf and said second weight retention member against said
second shelf and wherein said first shelf and said second shelf are
recessed towards said hollow golf club interior from said sole.
Description
RELATED APPLICATIONS
[0001] The current application is a continuation-in-part of U.S.
patent application Ser. No. 14/966,316, Metal Wood Club, to Knutson
et al., filed on Dec. 11, 2015, currently pending, the disclosure
of which is incorporated by reference in its entirety.
TECHNICAL FIELD
[0002] This present technology generally relates to systems,
devices, and methods related to golf clubs, and more specifically
to a wood-type golf club head with improved physical
attributes.
DESCRIPTION OF THE RELATED TECHNOLOGY
[0003] Golf club heads come in many different forms and makes, such
as wood- or metal-type (including drivers and fairway woods),
iron-type (including wedge-type club heads), utility- or
specialty-type, and putter-type. Each of these styles has a
prescribed function and make-up. The present invention relates
primarily to hollow golf club heads, such as wood-type and
utility-type (generally referred to herein as wood-type golf
clubs).
[0004] Wood-type or metal-type golf club heads generally include a
front or striking face, a crown, a sole and an arcuate skirt
including a heel, a toe and a back. The crown and skirt are
sometimes referred to as a shell. The front face interfaces with
and strikes the golf ball. A plurality of grooves, sometimes
referred to as "score lines," may be provided on the face to assist
in imparting spin to the ball and for decorative purposes. The
crown is generally configured to have a particular look to the
golfer and to provide structural rigidity for the striking face.
The sole of the golf club is particularly important to the golf
shot because it contacts and interacts with the ground during the
swing.
[0005] The complexities of golf club design are well known. The
specifications for each component of the club (i.e., the club head,
shaft, grip, and subcomponents thereof) directly impact the
performance of the club. Thus, by varying the design
specifications, a golf club can be tailored to have specific
performance characteristics.
[0006] The design and manufacture of wood-type club heads requires
careful attention to club head construction. Among the many factors
that must be considered are material selection, material treatment,
structural integrity and overall geometrical design. Exemplary
geometrical design considerations include loft, lie, face angle,
horizontal face bulge, vertical face roll, face size, center of
gravity, sole curvature, and overall head weight. The interior
design of the club head may be tailored to achieve particular
characteristics, such as by including hosel or shaft attachment
means, perimeter weighting on the face or body of the club head,
and fillers within hollow club heads. Club heads are typically
formed from stainless steel, aluminum, or titanium and are cast,
stamped, as by forming sheet metal with pressure, forged, or formed
by a combination of any two or more of these processes.
[0007] The club heads may be formed from multiple pieces that are
welded or otherwise joined together to form a hollow head, as is
often the case of club heads designed with inserts, such as
soleplates or crown plates. The multi-piece constructions
facilitate access to the cavity formed within the club head,
thereby permitting the attachment of various other components to
the head such as internal weights and the club shaft. The cavity
may remain empty, or may be partially or completely filled, such as
with foam. An adhesive may be injected into the club head to
provide the correct swing weight and to collect and retain any
debris that may be in the club head. In addition, due to
difficulties in manufacturing one-piece club heads to high
dimensional tolerances, the use of multi-piece constructions allows
the manufacture of a club head to a tight set of standards.
[0008] It is known to make wood-type golf clubs out of metallic
materials. These clubs were originally manufactured primarily by
casting durable metals such as stainless steel, aluminum, beryllium
copper, etc. into a unitary structure comprising a metal body, face
and hosel. As technology progressed, it became more desirable to
increase the performance of the face of the club, usually by using
a titanium material.
[0009] Players generally seek a metal wood driver and golf ball
combination that delivers maximum distance and landing accuracy.
The distance a ball travels after impact is dictated by the
magnitude and direction of the ball's translational velocity and
the ball's rotational velocity or spin. Environmental conditions,
including atmospheric pressure, humidity, temperature, and wind
speed, further influence the ball's flight. However, these
environmental effects are beyond the control of the golf equipment
manufacturer. Golf ball landing accuracy is driven by a number of
factors as well. Some of these factors are attributed to club head
design, such as center of gravity and club face flexibility.
[0010] Known methods to enhance the weight distribution of
wood-type club heads to help reduce the club from being open upon
contact with the ball usually include the addition of weights to
the body casting itself or strategically adding a weight element at
some point in the club. Many efforts have been made to incorporate
weight elements into the wood-type club head. These weight elements
are usually placed at specific locations, which will have a
positive influence on the flight of the ball or to overcome a
particular golfer's shortcomings.
[0011] The sole of the golf club is particularly important to the
golf shot because it contacts and interacts with the ground during
the golf shot. There are many sole configurations to optimize the
performance of the club. Typically, the sole of the club is
slightly curved such that when the club head is placed on the
ground, the leading edge is located above the ground. The curvature
toward the front of the club generally provides bounce. Bounce
assists in preventing the club from digging into the ground and
substantially slowing club head speed. The curvature toward the
trailing edge generally prevents the club head from getting caught
on the ground during the back swing.
[0012] The present invention is directed to an improved weighting
system for wood-type golf clubs that increases the club's
playability.
SUMMARY
[0013] The systems, methods, and devices described herein have
innovative aspects, no single one of which is indispensable or
solely responsible for their desirable attributes. Without limiting
the scope of the claims, some of the advantageous features will now
be summarized.
[0014] One non-limiting embodiment of the present technology
includes a golf club head comprising a body having a face, a sole,
a crown, and a skirt joining said face, sole and crown, said body
having a center of gravity; said body having a coordinate system
with an x-axis located horizontal to the club face, a y-axis
located vertical to the club face, and a z-axis located through the
club face, and wherein said body comprises a cavity; wherein said
cavity comprises an open end and a terminal end, said terminal end
opposite said open end; a weighted insert, said weighted insert
comprising a heavy end and a lighter end, said lighter end opposite
said heavy end; wherein said weighted insert comprises a
longitudinal insert axis along a center of said weighted insert and
passing through said heavy end and said lighter end; wherein said
cavity comprises a longitudinal cavity axis along a center of said
cavity and passing through said open end and said terminal end;
wherein said cavity is configured to receive said weighted insert
through said open end in both a first configuration and a second
configuration; wherein said first configuration comprises said
heavy end of said weighted insert adjacent said terminal end of
said cavity; wherein said second configuration comprises said
lighter end of said weighted insert adjacent said terminal end of
said cavity; wherein said cavity comprises a head locking feature;
wherein said weighted insert comprises an insert locking feature;
wherein said insert locking feature is configured to engage said
head locking feature as said insert locking feature is rotated
relative to said head locking feature; wherein said insert locking
feature is configured to lock said weighted insert in said cavity
with less than 180 degrees of rotation of said insert locking
feature relative to said head locking feature; wherein said head
locking feature comprises a slot, wherein said slot is arranged at
an oblique angle relative to said longitudinal axis of said cavity;
wherein said insert locking feature comprises a protrusion
configured to engage said slot, said protrusion and said slot
configured such that rotation of said insert locking feature
relative to said head locking feature forces said insert locking
feature to slide along said longitudinal axis of said cavity
towards said terminal end of said cavity.
[0015] In an additional non-limiting embodiment of the present
technology said slot comprises a detent configured to receive said
protrusion when said insert locking feature is in a locked
position.
[0016] An additional non-limiting embodiment of the present
technology includes a spring located in said cavity, said spring
configured to force said weighted insert away from said terminal
end of said cavity.
[0017] In an additional non-limiting embodiment of the present
technology said spring is configured to force said protrusion into
said detent, locking said insert locking feature relative to said
head locking feature.
[0018] In an additional non-limiting embodiment of the present
technology said insert locking feature is located at said lighter
end of said weighted insert, and said weighted insert further
comprises a second insert locking feature located at said heavy end
of said weighted insert.
[0019] In an additional non-limiting embodiment of the present
technology said weighted insert is configured to adjust a center of
gravity of said golf club head along both said z-axis and said
x-axis.
[0020] In an additional non-limiting embodiment of the present
technology said insert locking feature is configured to lock said
weighted insert in said cavity with less than 90 degrees of
rotation of said insert locking feature relative to said head
locking feature.
[0021] An additional non-limiting embodiment of the present
technology includes a golf club head comprising a body having a
face, a sole, a crown, and a skirt joining said face, sole and
crown, said body having a center of gravity; said body having a
coordinate system with an x-axis located horizontal to the club
face, a y-axis located vertical to the club face, and a z-axis
located through the club face, and wherein said body comprises a
cavity; wherein said cavity comprises an open end and a terminal
end, said terminal end opposite said open end; a weighted insert,
said weighted insert comprising a heavy end and a lighter end, said
lighter end opposite said heavy end; wherein said weighted insert
comprises a longitudinal insert axis along a center of said
weighted insert and passing through said heavy end and said lighter
end; wherein said cavity comprises a longitudinal cavity axis along
a center of said cavity and passing through said open end and said
terminal end; wherein said cavity is configured to receive said
weighted insert through said open end in both a first configuration
and a second configuration; wherein said first configuration
comprises said heavy end of said weighted insert adjacent said
terminal end of said cavity; wherein said second configuration
comprises said lighter end of said weighted insert adjacent said
terminal end of said cavity; wherein said cavity comprises a head
locking feature; an insert locking member configured to selectively
couple to one of said lighter end and said heavy end of said
weighted insert; wherein said insert locking member comprises an
insert locking feature; wherein said insert locking feature is
configured to engage said head locking feature as said insert
locking member is rotated relative to said head locking feature;
wherein said insert locking member is configured to lock said
weighted insert in said cavity with less than 180 degrees of
rotation of said insert locking member relative to said head
locking feature; wherein said head locking feature comprises a
slot, wherein said slot is arranged at an oblique angle relative to
said longitudinal axis of said cavity; wherein said insert locking
feature comprises a protrusion configured to engage said slot, said
protrusion and said slot configured such that rotation of said
insert locking member relative to said head locking feature forces
said insert locking feature to slide along said longitudinal axis
of said cavity towards said terminal end of said cavity.
[0022] In an additional non-limiting embodiment of the present
technology said slot comprises a detent configured to receive said
protrusion when said insert locking feature is in a locked
position.
[0023] An additional non-limiting embodiment of the present
technology includes a spring located in said cavity, said spring
configured to force said weighted insert away from said terminal
end of said cavity.
[0024] In an additional non-limiting embodiment of the present
technology said spring is configured to force said protrusion into
said detent, locking said insert locking member relative to said
head locking feature.
[0025] In an additional non-limiting embodiment of the present
technology said insert locking member comprises a cap configured to
removably attach to both the heavy end and the lighter end of the
weighted insert.
[0026] In an additional non-limiting embodiment of the present
technology said weighted insert is configured to adjust a center of
gravity of said golf club head along both said z-axis and said
x-axis.
[0027] In an additional non-limiting embodiment of the present
technology said insert locking member is configured to lock said
weighted insert in said cavity with less than 90 degrees of
rotation of said insert locking member relative to said head
locking feature.
[0028] An additional non-limiting embodiment of the present
technology includes a golf club head comprising a body having a
face, a sole, a crown, and a skirt joining said face, sole and
crown, said body having a center of gravity; said body having a
coordinate system with an x-axis located horizontal to the club
face, a y-axis located vertical to the club face, and a z-axis
located through the club face, and wherein said body comprises a
cavity; wherein said cavity comprises an open end and a terminal
end, said terminal end opposite said open end; a weighted insert,
said weighted insert comprising a heavy end and a lighter end, said
lighter end opposite said heavy end; wherein said weighted insert
comprises a longitudinal insert axis along a center of said
weighted insert and passing through said heavy end and said lighter
end; wherein said cavity comprises a longitudinal cavity axis along
a center of said cavity and passing through said open end and said
terminal end; wherein said cavity is configured to receive said
weighted insert through said open end in both a first configuration
and a second configuration; wherein said first configuration
comprises said heavy end of said weighted insert adjacent said
terminal end of said cavity; wherein said second configuration
comprises said lighter end of said weighted insert adjacent said
terminal end of said cavity; wherein said cavity comprises a head
locking feature; an insert locking member configured to slide along
said weighted insert to selectively couple to one of said lighter
end and said heavy end of said weighted insert; wherein said insert
locking member comprises an insert locking feature; wherein said
insert locking feature is configured to engage said head locking
feature as said insert locking member is rotated relative to said
head locking feature; wherein said insert locking member is
configured to lock said weighted insert in said cavity with less
than 180 degrees of rotation of said insert locking member relative
to said head locking feature; wherein said weighted insert
comprises an anti-rotation feature; wherein said insert locking
member comprises an anti-rotation feature; wherein said weighted
insert anti-rotation feature is configured to engage said insert
locking member anti-rotation feature and prevent said weighted
insert from rotating relative to said insert locking member.
[0029] In an additional non-limiting embodiment of the present
technology said head locking feature comprises a slot, wherein said
slot is arranged at an oblique angle relative to said longitudinal
axis of said cavity; wherein said insert locking feature comprises
a protrusion configured to engage said slot, said protrusion and
said slot configured such that rotation of said insert locking
member relative to said head locking feature forces said insert
locking feature to slide along said longitudinal axis of said
cavity towards said terminal end of said cavity, and wherein said
slot comprises a detent configured to receive said protrusion when
said insert locking feature is in a locked position.
[0030] An additional non-limiting embodiment of the present
technology includes a spring located in said cavity, said spring
configured to force said weighted insert away from said terminal
end of said cavity.
[0031] In an additional non-limiting embodiment of the present
technology said spring is configured to force said protrusion into
said detent, locking said insert locking member relative to said
head locking feature.
[0032] An additional non-limiting embodiment of the present
technology includes an insert retaining member, said insert
retaining member comprising a sheath, said sheath configured to
separate said cavity receiving said weighted insert.
[0033] An additional non-limiting embodiment of the present
technology includes a golf club head comprising: a body having a
face, a sole, a crown, and a skirt joining said face, sole and
crown; a hollow golf club interior within said body; said body
having a coordinate system with an x-axis located horizontal to the
club face, a y-axis located vertical to the club face, and a z-axis
located through the club face; said body having a center of
gravity; wherein said body comprises a first receptacle, said first
receptacle comprising a first aperture; wherein said body comprises
a second receptacle, said second receptacle comprising a second
aperture; and a weight retention system configured to receive a
weighted insert, said weight retention system comprising: a first
weight retention member affixed to said first receptacle, said
first weight retention member comprising an opening, at least a
portion of said first weight retention member extending through
said first aperture into said hollow golf club interior; a second
weight retention member affixed to said second receptacle, at least
a portion of said second weight retention member extending through
said second aperture into said hollow golf club interior; and a
third weight retention member extending between said first weight
retention member and said second weight retention member, said
third weight retention member extending through said opening of
said first weight retention member, at least a portion of said
third weight retention member located in said hollow golf club head
interior; wherein a majority of said body, by weight, is formed
from a first material having a first density; wherein said weighted
insert comprises a heavy end and a lighter end, wherein said third
weight retention member is configured to receive said weighted
insert in both a first configuration and a second configuration,
wherein said first configuration comprises said heavy end of said
weighted insert adjacent said second weight retention member and
said second configuration comprises said lighter end of said
weighted insert adjacent said second weight retention member;
wherein at least a portion of said first receptacle is located on
said sole; wherein at least a portion of said second receptacle is
located on said sole; wherein said first weight retention member is
permanently affixed to said first receptacle and wherein said
second weight retention member is permanently affixed to said
second receptacle; wherein said first receptacle includes a first
shelf, wherein said first weight retention member includes an inner
surface and an outer surface opposite said inner surface, wherein
said inner surface of said first weight retention member abuts said
first shelf, and wherein at least a portion of said outer surface
of said first weight retention member is substantially flush with
an external surface of said sole; wherein said first weight
retention member and said second weight retention member are formed
from a second material, said second material having a second
density and wherein said second density is less than said first
density; wherein said second receptacle comprises a second shelf,
wherein at least a portion of said first shelf is angled relative
to at least a portion of said second shelf, wherein said third
weight retention member couples said first weight retention member
to said second weight retention member, forcing said first weight
retention member against said first shelf and said second weight
retention member against said second shelf and wherein said first
shelf and said second shelf are recessed towards said hollow golf
club interior from said sole.
[0034] An additional non-limiting embodiment of the present
technology includes a golf club head comprising: a body having a
face, a sole, a crown, and a skirt joining said face, sole and
crown; a hollow golf club interior within said body; said body
having a coordinate system with an x-axis located horizontal to the
club face, a y-axis located vertical to the club face, and a z-axis
located through the club face; said body having a center of
gravity; wherein said body comprises a first receptacle, said first
receptacle comprising a first aperture; wherein said body comprises
a second receptacle, said second receptacle comprising a second
aperture; and a weight retention system configured to receive a
weighted insert, said weight retention system comprising: a first
weight retention member affixed to said first receptacle, said
first weight retention member comprising an opening, at least a
portion of said first weight retention member extending through
said first aperture into said hollow golf club interior; a second
weight retention member affixed to said second receptacle, at least
a portion of said second weight retention member extending through
said second aperture into said hollow golf club interior; and a
third weight retention member extending between said first weight
retention member and said second weight retention member, said
third weight retention member extending through said opening of
said first weight retention member, at least a portion of said
third weight retention member located in said hollow golf club head
interior; wherein a majority of said body, by weight, is formed
from a first material having a first density; wherein said first
weight retention member and said second weight retention member are
formed from a second material, said second material having a second
density; wherein said second density is less than said first
density.
[0035] In an additional non-limiting embodiment of the present
technology at least a portion of said first receptacle is located
on said sole.
[0036] In an additional non-limiting embodiment of the present
technology at least a portion of said second receptacle is located
on said sole.
[0037] In an additional non-limiting embodiment of the present
technology at least a portion of said first receptacle and at least
a portion of said second receptacle are located on said skirt.
[0038] In an additional non-limiting embodiment of the present
technology said first weight retention member is permanently
affixed to said first receptacle and wherein said second weight
retention member is permanently affixed to said second
receptacle.
[0039] In an additional non-limiting embodiment of the present
technology said first receptacle includes a first shelf, wherein
said first weight retention member includes an inner surface and an
outer surface opposite said inner surface, wherein said inner
surface of said first weight retention member abuts said first
shelf, and wherein at least a portion of said outer surface of said
first weight retention member is substantially flush with an
external surface of said sole.
[0040] In an additional non-limiting embodiment of the present
technology said first weight retention member and said second
weight retention member are formed fiber reinforced plastic.
[0041] In an additional non-limiting embodiment of the present
technology said weighted insert comprises a heavy end and a lighter
end, wherein said third weight retention member is configured to
receive said weighted insert in both a first configuration and a
second configuration, wherein said first configuration comprises
said heavy end of said weighted insert adjacent said second weight
retention member and said second configuration comprises said
lighter end of said weighted insert adjacent said second weight
retention member.
[0042] In an additional non-limiting embodiment of the present
technology said second receptacle comprises a second shelf, wherein
at least a portion of said first shelf is angled relative to at
least a portion of said second shelf, wherein said third weight
retention member couples said first weight retention member to said
second weight retention member, forcing said first weight retention
member against said first shelf and said second weight retention
member against said second shelf.
[0043] In an additional non-limiting embodiment of the present
technology said first shelf and said second shelf are recessed
towards said hollow golf club interior from said sole.
[0044] An additional non-limiting embodiment of the present
technology includes a golf club head comprising: a body having a
face, a sole, a crown, and a skirt joining said face, sole and
crown; a hollow golf club interior within said body; said body
having a coordinate system with an x-axis located horizontal to the
club face, a y-axis located vertical to the club face, and a z-axis
located through the club face; said body having a center of
gravity; wherein said body comprises a first receptacle, said first
receptacle comprising a first aperture; wherein said body comprises
a second receptacle, said second receptacle comprising a second
aperture; and a weight retention system configured to receive a
weighted insert, said weight retention system comprising: a first
weight retention member affixed to said first receptacle, said
first weight retention member comprising an opening, at least a
portion of said first weight retention member extending through
said first aperture into said hollow golf club interior; a second
weight retention member affixed to said second receptacle, at least
a portion of said second weight retention member extending through
said second aperture into said hollow golf club interior; and a
third weight retention member extending between said first weight
retention member and said second weight retention member, said
third weight retention member extending through said opening of
said first weight retention member, at least a portion of said
third weight retention member located in said hollow golf club head
interior; wherein a majority of said body, by weight, is formed
from a first material having a first density; wherein said weighted
insert comprises a heavy end and a lighter end, wherein said third
weight retention member is configured to receive said weighted
insert in both a first configuration and a second configuration,
wherein said first configuration comprises said heavy end of said
weighted insert adjacent said second weight retention member and
said second configuration comprises said lighter end of said
weighted insert adjacent said second weight retention member.
[0045] In an additional non-limiting embodiment of the present
technology at least a portion of said first receptacle is located
on said sole.
[0046] In an additional non-limiting embodiment of the present
technology at least a portion of said second receptacle is located
on said sole.
[0047] In an additional non-limiting embodiment of the present
technology at least a portion of said first receptacle and at least
a portion of said second receptacle are located on said skirt.
[0048] In an additional non-limiting embodiment of the present
technology said first weight retention member is permanently
affixed to said first receptacle and wherein said second weight
retention member is permanently affixed to said second
receptacle.
[0049] In an additional non-limiting embodiment of the present
technology said first receptacle includes a first shelf, wherein
said first weight retention member includes an inner surface and an
outer surface opposite said inner surface, wherein said inner
surface of said first weight retention member abuts said first
shelf, and wherein at least a portion of said outer surface of said
first weight retention member is substantially flush with an
external surface of said sole.
[0050] In an additional non-limiting embodiment of the present
technology said first weight retention member and said second
weight retention member are formed fiber reinforced plastic.
[0051] In an additional non-limiting embodiment of the present
technology said first weight retention member and said second
weight retention member are formed from a second material, said
second material having a second density and wherein said second
density is less than said first density.
[0052] In an additional non-limiting embodiment of the present
technology said second receptacle comprises a second shelf, wherein
at least a portion of said first shelf is angled relative to at
least a portion of said second shelf, wherein said third weight
retention member couples said first weight retention member to said
second weight retention member, forcing said first weight retention
member against said first shelf and said second weight retention
member against said second shelf and wherein said first shelf and
said second shelf are recessed towards said hollow golf club
interior from said sole.
BRIEF DESCRIPTION OF THE DRAWINGS
[0053] The accompanying drawings form a part of the specification
and are to be read in conjunction therewith. The illustrated
embodiments, however, are merely examples and are not intended to
be limiting. Like reference numbers and designations in the various
drawings indicate like elements.
[0054] Preferred features of the present invention are disclosed in
the accompanying drawings, wherein similar reference characters
denote similar elements throughout the several views, and
wherein:
[0055] FIG. 1 is a perspective view of an embodiment of a club head
of the present invention;
[0056] FIG. 2 is bottom plan view of an embodiment of a club head
of FIG. 1;
[0057] FIG. 3A is a front plan view of an embodiment of a club head
according to FIG. 1 at impact with a golf ball;
[0058] FIG. 3B is a front plan view of an embodiment of a club head
according to FIG. 1 at address;
[0059] FIG. 4A is bottom plan view of an embodiment of a club head
of FIG. 1;
[0060] FIG. 4B is a cross-sectional view of the club head of FIG. 4
taken along line 3B-3B in FIG. 4;
[0061] FIG. 4C is a cross-sectional view of the club head of FIG. 4
taken along line 4C-4C in FIG. 4;
[0062] FIG. 4D is a cross-sectional view of the club head of FIG. 4
taken along line 4D-4D in FIG. 4;
[0063] FIG. 5 is a back view of the club head of FIG. 1;
[0064] FIG. 6 is a heel side view of the club head of FIG. 1;
[0065] FIG. 7A is a bottom plan view of a club head with the
inventive sole of FIG. 1;
[0066] FIG. 7B is a cross sectional view of the club head of FIG.
7A taken along line 7B-7B;
[0067] FIG. 8 is a bottom plan view of another alternative
embodiment of a club head of the present invention;
[0068] FIG. 9 is a top plan view of an alternative embodiment of a
club head according to the present invention;
[0069] FIG. 10A is a front plan view of a club head according to an
embodiment of the club head of FIG. 9;
[0070] FIG. 10B is a cross-sectional view of the club head of FIG.
10A, taken along lines 10B-10B;
[0071] FIG. 11 is a top plan view of the club head according to an
embodiment of FIG. 9;
[0072] FIG. 12A is a front plan view of a club head according to an
embodiment of the club head of FIG. 9;
[0073] FIG. 12B is a cross-sectional view of the club head of FIG.
12A, taken along lines 12B-12B;
[0074] FIG. 13 is a back perspective cut-out view of an embodiment
of a club head according to FIG. 9;
[0075] FIG. 14 is a back view of the club head of FIG. 13;
[0076] FIG. 15 is a perspective view of a weight tube according to
the embodiment of the FIG. 13;
[0077] FIG. 16 is a back perspective cut-out view of another
embodiment of a club head according to FIG. 9;
[0078] FIG. 17 is a perspective view of a weight tube according to
the embodiment of the FIG. 17;
[0079] FIG. 18 is a back perspective cut-out view of another
embodiment of a club head according to FIG. 9;
[0080] FIG. 19 is a bottom plan view of another embodiment of a
club head according to FIG. 9;
[0081] FIG. 20 is a front perspective cut-out view of another
embodiment of a club head according to FIG. 9;
[0082] FIG. 21 is a graph depicting the movement of the center of
gravity along the y-axis and z-axis according to the embodiment of
FIG. 13;
[0083] FIG. 22 is a graph depicting the movement of the center of
gravity along the y-axis and x-axis according to the embodiment of
FIG. 13;
[0084] FIG. 23 is a graph depicting the movement of the center of
gravity along the y-axis and z-axis according to the embodiment of
FIG. 16; FIG. 24 is a graph depicting the movement of the center of
gravity along the y-axis and x-axis according to the embodiment of
FIG. 16;
[0085] FIG. 25 is a perspective view of a golf club head in
accordance with an alternative embodiment of the present
invention;
[0086] FIG. 26 is an exploded sole view of a golf club head
according to the embodiment of FIG. 25;
[0087] FIG. 27 is a cross-sectional view of a golf club head
according to the embodiment of FIG. 25, taken across
cross-sectional line O;
[0088] FIG. 28 is an exploded sole view of a golf club head
according to a further alternative embodiment of the invention;
[0089] FIG. 29 is a perspective view of a golf club head in
accordance with an alternative embodiment of the present
invention;
[0090] FIG. 30 is an exploded sole view of a golf club head
according to the embodiment of FIG. 29;
[0091] FIG. 31 is a cross-sectional view of a golf club head
according to the embodiment of FIG. 30, taken across
cross-sectional line O;
[0092] FIG. 32 is an exploded sole view of a golf club head
according to a further alternative embodiment of the invention;
[0093] FIG. 33 is an exploded sole view of a golf club head
according to a further alternative embodiment of the invention.
[0094] FIG. 34 is an exploded view of a weighted insert in
accordance with an alternative embodiment of the present
invention;
[0095] FIG. 35 is an exploded view of a weighted insert in
accordance with another alternative embodiment of the present
invention;
[0096] FIG. 36 is a cross-sectional view of a weighted insert in
accordance with an alternative embodiment of the present
invention;
[0097] FIG. 37 is an exploded view of a weighted insert in
accordance with another alternative embodiment of the present
invention;
[0098] FIG. 38 is an exploded view of a weighted insert in
accordance with another alternative embodiment of the present
invention;
[0099] FIG. 39 is an exploded view of a golf club head having a
weighted insert in accordance with an alternative embodiment of the
present invention;
[0100] FIG. 40 is an exploded view of a weighted insert shown in
FIG. 39;
[0101] FIG. 41 is an enlarged cross-sectional view of a cap of the
weighted insert in accordance with an alternative embodiment of the
present invention;
[0102] FIG. 42 is an enlarged cross-sectional view of a weighted
insert in accordance with a further alternative embodiment of the
present invention; and
[0103] FIG. 43 is an enlarged cross-sectional view of a weighted
insert in accordance with another alternative embodiment of the
present invention.
[0104] FIG. 44 of the accompanying drawings shows a perspective
view of a weighted insert in accordance with another further
alternative embodiment of the present invention.
[0105] FIG. 45 illustrates a cross section of a golf club head
including the weighted insert of FIG. 44.
[0106] FIG. 46 illustrates a perspective view of the weighted
insert of FIG. 44.
[0107] FIG. 47 illustrates a perspective view of a head locking
member of the golf club head of FIG. 45.
[0108] FIG. 48 illustrates a perspective view of a head locking
member of the golf club head of FIG. 45.
[0109] FIG. 49 of the accompanying drawings shows a perspective
view of a weighted insert in accordance with another further
alternative embodiment of the present invention.
[0110] FIG. 50 illustrates a cross section of a golf club head
including the weighted insert of FIG. 49.
[0111] FIG. 51 illustrates a perspective view of the weighted
insert of FIG. 49 including a spring and centering member.
[0112] FIG. 52 illustrates a perspective view of the spring and
centering member of FIG. 51.
[0113] FIG. 53 illustrates a perspective view of a spring.
[0114] FIG. 54 illustrates a perspective view of a low friction
member as well as the spring of FIG. 54.
[0115] FIG. 55 of the accompanying drawings shows a perspective
view of an insert retaining member.
[0116] FIG. 56 illustrates a perspective view of a weighted insert
with a sliding insert locking member.
[0117] FIG. 57 illustrates a perspective view of a sliding insert
locking member.
[0118] FIG. 58 illustrates a perspective view of the weighted
insert of FIG. 56.
[0119] FIG. 59 illustrates a cross sectional view of the weighted
insert of FIG. 56 installed in the insert retaining member of FIG.
55.
[0120] FIG. 60 illustrates a perspective view of an additional
embodiment of the weighted insert and sliding insert locking member
of FIG. 56.
[0121] FIG. 61 illustrates a cross sectional view of the weighted
insert and sliding insert locking member of FIG. 60.
[0122] FIG. 62 illustrates a perspective view of an additional
embodiment of a weighted insert.
[0123] FIG. 63 illustrates a perspective view of components of the
weighted insert of FIG. 62.
[0124] FIG. 64 illustrates a cross sectional view of the weighted
insert of FIG. 62.
[0125] FIG. 65 illustrates a perspective view of an additional
embodiment of a weighted insert.
[0126] FIG. 66 illustrates a cross sectional view of the weighted
insert of FIG. 65.
[0127] FIG. 67 illustrates a perspective view of an additional
embodiment of a weight insert.
[0128] FIG. 68 illustrates a perspective view of an insert
retaining member configured to receive the weigh insert of FIG.
67.
[0129] FIG. 69 is an end view of the insert retaining member of
FIG. 68.
[0130] FIG. 70 is a cross sectional view of the weight insert of
FIG. 67 installed in the insert retaining member of FIG. 68.
[0131] FIG. 71 illustrates an additional embodiment of a weighted
insert.
[0132] FIG. 72 illustrates a perspective view of an insert
retaining member configured to receive the weighted insert of FIG.
71.
[0133] FIG. 73 illustrates an additional embodiment of an insert
retaining member.
[0134] FIG. 74 illustrates an additional embodiment of a weighted
insert configured to reside in the insert retaining member of FIG.
73.
[0135] FIG. 75 illustrates a cross sectional view of the insert
retaining member and weighted insert of FIGS. 73 and 74.
[0136] FIG. 76 illustrates a perspective view of an additional
embodiment of a weighted insert.
[0137] FIG. 77 illustrates a cross sectional view of the weighted
insert of FIG. 76.
[0138] FIG. 78 of the accompanying drawings illustrates a
perspective view of one embodiment of a golf club head.
[0139] FIG. 79 illustrates a perspective view of the bottom of the
golf club head of FIG. 78 including one embodiment of a weight
retention system including a first weight retention member and a
second weight retention member.
[0140] FIG. 80 illustrates a perspective view of one embodiment of
the weight retention system of FIG. 79.
[0141] FIG. 81 illustrates a perspective view of the weight
retention system of FIG. 80 including a third weight retention
member.
[0142] FIG. 82 illustrates an additional perspective view of the
weight retention system of FIG. 81.
[0143] FIG. 83 illustrates an additional perspective view of the
weight retention system of FIG. 81.
[0144] FIG. 84 illustrates a perspective view of one embodiment of
the insert retaining member of FIG. 81.
[0145] FIG. 85 illustrates a cross-sectional view of the third
weight retention member of FIG. 81.
[0146] FIG. 86 illustrates a perspective view of a weighted
insert.
[0147] FIG. 87 illustrates a perspective view of the bottom of the
golf club head of FIG. 78 including the third weight retention
member of FIG. 81.
[0148] FIG. 88 illustrates an additional perspective view of the
golf club head of FIG. 87.
[0149] FIG. 89 illustrates an additional perspective view of the
golf club head of FIG. 87.
[0150] FIG. 90 illustrates an additional perspective view of the
golf club head of FIG. 87.
[0151] FIG. 91 illustrates a perspective view of the bottom of the
golf club head without the weight retention system.
[0152] FIG. 92 illustrates an additional perspective view of the
golf club head of FIG. 91.
[0153] FIG. 93 illustrates a cross-sectional view of the golf club
head of FIG. 91.
[0154] FIG. 94 illustrates a cross-sectional view of the golf club
head of FIG. 79.
[0155] FIG. 95 illustrates a cross-sectional view of the golf club
head of FIG. 87.
DETAILED DESCRIPTION
[0156] In the following detailed description, reference is made to
the accompanying drawings, which form a part of the present
disclosure. The illustrative embodiments described in the detailed
description, drawings, and claims are not meant to be limiting.
Other embodiments may be utilized, and other changes may be made,
without departing from the spirit or scope of the subject matter
presented herein. It will be readily understood that the aspects of
the present disclosure, as generally described herein, and
illustrated in the Figures, can be arranged, substituted, combined,
and designed in a wide variety of different configurations, all of
which are explicitly contemplated and form part of this disclosure.
For example, a system or device may be implemented or a method may
be practiced using any number of the aspects set forth herein. In
addition, such a system or device may be implemented or such a
method may be practiced using other structure, functionality, or
structure and functionality in addition to or other than one or
more of the aspects set forth herein. Alterations and further and
further modifications of inventive features illustrated herein, and
additional applications of the principles of the inventions as
illustrated herein, which would occur to one skilled in the
relevant art and having possession of this disclosure, are to be
considered within the scope of the invention.
[0157] Other than in the operating examples, or unless otherwise
expressly specified, all of the numerical ranges, amounts, values
and percentages such as those for amounts of materials, moments of
inertias, center of gravity locations, loft and draft angles, and
others in the following portion of the specification may be read as
if prefaced by the word "about" even though the term "about" may
not expressly appear with the value, amount, or range. Accordingly,
unless indicated to the contrary, the numerical parameters set
forth in the following specification and attached claims are
approximations that may vary depending upon the desired properties
sought to be obtained by the present invention. At the very least,
and not as an attempt to limit the application of the doctrine of
equivalents to the scope of the claims, each numerical parameter
should at least be construed in light of the number of reported
significant digits and by applying ordinary rounding
techniques.
[0158] Notwithstanding that the numerical ranges and parameters
setting forth the broad scope of the invention are approximations,
the numerical values set forth in the specific examples are
reported as precisely as possible. Any numerical value, however,
inherently contains certain errors necessarily resulting from the
standard deviation found in their respective testing measurements.
Furthermore, when numerical ranges of varying scope are set forth
herein, it is contemplated that any combination of these values
inclusive of the recited values may be used.
[0159] In describing the present technology, the following
terminology may have been used: The singular forms "a," "an," and
"the" include plural referents unless the context clearly dictates
otherwise. Thus, for example, reference to an item includes
reference to one or more items. The term "plurality" refers to two
or more of an item. The term "substantially" means that the recited
characteristic, parameter, or value need not be achieved exactly,
but that deviations or variations, including for example,
tolerances, measurement error, measurement accuracy limitations and
other factors known to those of skill in the art, may occur in
amounts that do not preclude the effect the characteristic was
intended to provide. A plurality of items may be presented in a
common list for convenience. However, these lists should be
construed as though each member of the list is individually
identified as a separate and unique member. Thus, no individual
member of such list should be construed as a de facto equivalent of
any other member of the same lists solely based on their
presentation in a common group without indications to the contrary.
Furthermore, where the terms "and" and "or" are used in conjunction
with a list of items, they are to be interpreted broadly, in that
any one or more of the listed items may be used alone or in
combination with other listed items. The term "alternatively"
refers to a selection of one of two or more alternatives, and is
not intended to limit the selection of only those listed
alternative or to only one of the listed alternatives at a time,
unless the context clearly indicated otherwise.
[0160] Features of the present disclosure will become more fully
apparent from the following description and appended claims, taken
in conjunction with the accompanying drawings. After considering
this discussion, and particularly after reading the section
entitled "Detailed Description" one will understand how the
illustrated features serve to explain certain principles of the
present disclosure
[0161] FIG. 1 shows a golf club head 10 of the present invention.
Club head 10 includes a body 12 having a strike face 14, a sole 16,
a crown 18, a skirt 20 and a hosel 22. The body defines a hollow
interior volume 24 (See FIGS. 4B-4D). Foam or other material may
partially or completely fill the interior volume. Weights may be
included within the interior volume. The face may be provided with
grooves or score lines of varying design. The club head has a toe
26 and a heel 28.
[0162] A golf club shaft (not shown) is attached at hosel 22 and is
disposed along a shaft axis A-A. The hosel 22 may extend to the
bottom of the club head 10, may terminate at a location between the
sole and crown portions 16 and 18 of the head 10, or the hosel 22
may terminate flush with the crown portion 26.
[0163] It is recommended that the inner volume 24 have a volume
greater than 125 cubic centimeters, and more preferably greater
than 175 cubic centimeters. Preferably, the mass of the inventive
club head 10 is greater than 150 grams, but less than 220 grams;
although the club head may have any suitable weight. The body 12
may be formed of sheets welded together or cast, preferably from
steel, aluminum or titanium or any other suitable material or
combination thereof.
[0164] The strike face 14 may be made by milling, casting, forging
or stamping and forming. The face 14 may be made of any suitable
material, including titanium, titanium alloy, carbon steel,
stainless steel, beryllium copper, and other metals or composites.
The face 14 may have any suitable thickness, and may be uniform or
varied. As will be appreciated, the face 14 may be connected to the
body 12 by any suitable means, including bonding and welding.
Alternatively, the body 12 and face 14 may be cast simultaneously
forming a homogeneous shell and eliminating the need to bond or
otherwise permanently secure a separate face 14 to the body 12.
Alternatively, the sole 16 or crown 18 may be formed separately and
fitted to the remainder of the body 12 as is known to those of
skill in the art.
[0165] The sole 16 preferably has a complex shape that accomplishes
two objectives. The first objective is to provide a surface for the
club head 10 to sit on in the address position that squares the
face 14 to the target. The second objective is to provide a sole
shape that gives more clearance to the ground at impact than would
be available in a club head with a conventional sole. In order to
achieve the first objective, an address portion or zero degree
bounce portion 30 is provided. This portion is a sufficient area on
the sole 16 on which the club head 10 may rest when placed at the
address position by a golfer. The zero degree bounce portion 30 may
be a flat portion provided on the sole 16. The zero degree bounce
portion 30 may be directly centered behind the face 16 or, as
illustrated, may be provided more toward the heel 28. As
illustrated in FIGS. 1 and 2, the sole 16 has a zero degree bounce
portion 30, such that at address the club head 10 rests at this
point and the face 14 is square to the target. The zero degree
bounce portion 30 enables the club head 10 to sit just as a
conventional club head without a sole having a complex shape. Thus,
the complex sole of the inventive club head 10 does not adversely
affect the way the club head sits at address.
[0166] In order to achieve the second objective, a portion of the
sole 16 is relieved to give it a multi-relief surface 32 with a
negative bounce. Preferably, a negative bounce portion 34 is
provided on the sole 16 in a center portion that is spaced from the
face 14 of the club head 10. Thus, the club head 10 has two areas
of bounce. As illustrated in FIGS. 3A and 3B, the impact position
Ip of the club head 10 is different than an address position Ap
because the dynamics of the golf swing cause the shaft to flex at
impact thereby moving the position of the club head 10. FIG. 3B
illustrates the club head at address where the face is square to
the target, the shaft axis A-A creates an angle with the ground G
called the shaft angle .quadrature.a. As illustrated in FIG. 3A,
during impact, the club head is rotated a few degrees upright, and
the shaft axis A-A creates a different angle with the ground G
called shaft angle .quadrature.i.
[0167] It will be appreciated that in one embodiment the toe 26 may
be up at least 5 degrees at a first measurement, for example when
the club head 10 sits at address, such that the face 14 measures
square. At a second measurement, for example during impact with a
golf ball, taken at a centered position the face 14 measures
differently than the first measurement. For example, the face 14
may measure at least two degrees more open at the second
measurement than the first measurement, or at least two degrees
open at the second measurement than the first measurement. The
centered position may comprise the negative bounce portion 34,
which may be a substantially flat surface. When the first
measurement occurs at the address position, the shaft angle
.quadrature.a preferably measures about 55 to 45 degrees. When the
second measurement occurs at impact of the club head 10 with a golf
ball, the shaft angle .quadrature.i measures about 55 degrees to 60
degrees.
[0168] As illustrated in FIGS. 1 and 2, the sole 16 features a
multi-relief surface 32 to provide greater ground clearance at the
trailing edge 36 of the sole 16 to minimize turf resistance. With
this construction, the ground/sole contact point remains forward
toward the leading edge 38 of the strike face 14. Maintaining a
forward ground/sole contact point improves directional control and
ball flight, by reducing the potential of the club head 10 to
bounce or skip onto the ball. This is particularly true of players
that play the ball forward in their stance, or who sweep the ball
from the turf with a shallow angle of attack. Preferably, the
multi-relief surface 32 sole features the negative bounce portion
32 and a cutaway portion 40.
[0169] The negative bounce portion 34 may have any desired overall
shape; preferably the negative bounce portion 34 has a triangular
shape as shown in FIGS. 1 and 2. FIGS. 4A-4D illustrates the
negative bounce portion 34 and cutaway portion 40 in the sole 16.
Cross-sectional views illustrated in FIGS. 4B and 4D show cutaway
portion 40 in comparison with the regular surface 42 of a
conventional club head sole. FIG. 4B illustrates the
cross-sectional view of the center section of the club head 10 with
the negative bounce portion 34 and cutaway portion 40 in comparison
with the regular surface of a conventional club head sole 42.
[0170] The cutaway portion 40 extends from the negative bounce
portion 34 to the trailing edge 36 of to the club head 10. As
illustrated in FIGS. 4B-D, the cutaway portion 40 continues and may
gradually increase the negative surface from the plane S running
along the bottom of the sole. Preferably, the cutaway portion 40
has a depth dcp of about 0.05 to 0.5 inch from the regular surface
of a conventional club head sole 42; this depth may or may not be
constant. FIGS. 5 and 6 illustrate the back 44 and heel 28 of the
club head. The full extent of the cutaway portion 40 can be
envisioned.
[0171] FIGS. 7A-7B illustrate the sole 16 of the club head 10 and a
cross-sectional view through line 7B-7B which illustrates the
multi-relief surface 32 of the sole 16. The negative bounce portion
34 is spaced a distance D1 from the strike face, where D1 is
preferably about 0.1 to 1.0 inch. More preferably, D1 is about 0.35
to 0.65 inch from the strike face 14 of the club head 10. The
distance D1 may be different for different club heads as it may
depend on the face progression and the loft of the club head. As
illustrated, the negative bounce portion 34 comprises a surface
having an angle .quadrature. from a plane S running along the
bottom of the sole 16 parallel to the z-axis of a coordinate system
running through the club head. The negative bounce portion 34
comprises about a negative 0.5 to a negative 4.0 degree surface,
such that the angle .quadrature. is about negative 0.5 to 4.0
degrees from the plane S. Preferably, the negative bounce portion
34 comprises about a negative 2.0 degree surface. It will be
appreciated that the negative bounce portion 34 may have a constant
angle or may have an angle that varies toward the back of the sole.
The negative bounce portion 34 may have locations with multiple
radii.
[0172] As illustrated, the multi-relief surface 32 includes both
the negative bounce portion 34 and the cutaway portion 40 and these
form a triangular shape. The triangular shape forms an angle
.quadrature., angle .quadrature. is preferably about 35 to 50
degrees, and more preferably about 38 to 44 degrees. The negative
bounce portion 34 and cutaway portion 40 have a length L, length L
is preferably about 1 to 5 inches, and more preferably about 2 to 4
inches.
[0173] FIG. 8 shows an alternative embodiment for the sole 16. The
club head 46 features a multi-relief sole 32 as described above.
The multi-relief sole features the negative bounce portion 34 and
the cutaway portion 40. It will be appreciated that the negative
bounce portion 34 and cutaway portion 40 may have any suitable
shape.
[0174] In general, to increase the sweet spot, the center of
gravity of the club head is moved toward the bottom and back of the
club head. This permits an average golfer to launch the ball up in
the air faster and hit the ball farther. In addition, the moment of
inertia of the club head is increased to minimize the distance and
accuracy penalties associated with off-center hits. In order to
move the weight down and back without increasing the overall weight
of the club head, material or mass is generally taken from one area
of the club head and moved to another. Materials can be taken from
the face of the club, creating a thin club face, the crown and/or
sole and placed toward the back of the club.
[0175] FIG. 9 illustrates a top of a club head 50 according to
another embodiment of the present invention. Club head 50 includes
a body 52 having a strike face 54, a sole 56 (see FIGS. 10A and
10B), a crown 58, a skirt 60 and a hosel 62. The body defines a
hollow interior volume 64 (See FIGS. 10B and 12B). The face may be
provided with grooves or score lines of varying design. The club
head has a toe 66 and a heel 68.
[0176] FIG. 9 illustrates the center of gravity (c.g.) along the
x-axis and z-axis. In order to improve playability of the club head
50 it is desired to be able to move the c.g. within the club head
50 to a more optimal position. Preferably, the club head 50
features a weight system 70 (see FIGS. 10A-10B and 12A-12B) to move
the c.g. within the club head 50 to a more optimal position.
Preferably, the c.g. is movable within a 6 mm distance along the
z-axis in comparison to a club head without the weight system. More
preferably, the c.g. is movable within a 4 mm distance along the
z-axis. The c.g. may be movable within a 6 mm distance along the
x-axis in comparison to a club head without the weight system, more
preferably within a 2 mm distance, and still more preferably within
a 0.5 mm distance. Additionally, the c.g. is moveable within a 6 mm
distance along the y-axis in comparison to a club head without the
weight system (See FIG. 10A-10B and 12A-12B). Preferably the c.g.
is moveable within a 2 mm distance along the y-axis.
[0177] The c.g. adjustability may not substantially affect the
dynamic loft of the club head. For example, for a 3 mm front-back
c.g. shift the dynamic loft changes about 0.4 degrees. When the
c.g. is moved back, the backspin may increase, for example between
100 and 300 rpm per 3 mm of c.g. movement toward the rear of the
club head.
[0178] FIG. 10A illustrates the front face 54 of the club head
showing the x-axis and the y-axis. FIG. 10B is a cross-sectional
view taken along lines 10B-10B of FIG. 10A. FIG. 10B depicts the
inside of the club head featuring a weight system 70 according to
the invention, and the c.g. may be moved along the z axis and y
axis.
[0179] FIG. 10B depicts the weight system 70 as a tube 72 placed
within the club head 50 within a plane formed by the y-axis and
z-axis to adjust the c.g. of the club head. As illustrated in FIG.
11, it will be appreciated that more than one tube 72 may be
provided within the club head 50. As illustrated in FIG. 10B, the
weight system 70 features a tube 72 with a weight 74 at one end 76
of the tube 72. As shown in FIG. 10B, the weight 74 is placed the
back of the club head 50 to move the c.g. to a desired location for
desirable ball flight. When the weight 74 is located at a back of
the club head 50, a shot hit off the club head 50 has increased
backspin and a higher launch angle resulting in a softer landing.
In an alternative embodiment, it will be appreciated that the tube
72 may feature multiple inserts varying in weight for placement
within the tube 72 to move the c.g. of the club head 50 to a
desired location.
[0180] As illustrated, the tube 72 is preferably provided at an
angle within the club head 50. The tube 72 is angled downward
toward the face 54 of the club head 50, such that the tube 72 is
provided within the plane formed by the z-axis and y-axis. The tube
72 may be angled by an angle .quadrature., where .quadrature. is at
least 1 degree from the plane W formed by the z axis and x axis.
Preferably, the tube is angled downward toward the face 54 by at
least 3 degrees from the plane W formed by the z-axis and x-axis.
More preferably, the tube 72 is angled downward toward the face of
the club head 50 by about 3 to 7 degrees from the plane W formed by
the z-axis and x-axis. It will be appreciated that although the
tube 72 is described herein as being provided within a plane formed
by the y-axis and z-axis, the tube 72 may be offset in either
direction from that plane by any desired amount.
[0181] Now referring to FIG. 12A-12B, it will be appreciated that
the tube 72 may be flipped within the club head 50, such that the
weight 74 is provided at the other end 76 of the club head 50,
closer to the face 54, to move the c.g. to a different location for
desirable ball flight. When the weight 74 is located at a front of
the club head 50 a shot hit off the club head 50 has less backspin
and a lower trajectory resulting in a shallower landing for
increased distance. It will be appreciated that the tube 72 itself
may be able to be inserted in the club head with the weight 74 in
either direction, or that different tubes 72 may be selectable with
the weight 74 at the desired end and then provided in the club
head.
[0182] It will be appreciated that a club having the weight system
70, such as the tube 72 and weight 74, may also include the
multi-relief surface 32 on the sole 56 as described above. For
example, in FIGS. 10B and 12B the sole 56 may feature a
multi-relief surface 32 with a negative bounce portion 34 and a
cutaway portion 40 as described above. It will also be appreciated
that the angle .quadrature. of the tube may be substantially
parallel to the multi-relief surface 32.
[0183] FIG. 13 illustrates how the tube 72 may be inserted into the
club head 50. A sheath 78 extending from a block 79 in the club
head 50 receives the tube 72 with the weight 74, and a fastener 80
locks the tube 72 in place within the club head 50. The tube 72 is
fastened to the outside of the club head 50 substantially flush
with an outer surface 82 of the club head, as illustrated in FIG.
14.
[0184] FIG. 15 illustrates the tube 72 according to the embodiment
of FIG. 13. The weight 74 is provided at an end 76 of the tube 72.
It will be appreciated that the tube 72 and weight 74 may be joined
by threaded engagement, epoxy, mechanical lock or other joining
method. The weight 74 may comprise tungsten or any other suitable
material. The weight 74 has a mass of about 10 to 25 grams. The
combined mass of the tube 72 and weight 74 is about 20 to 40 grams.
Preferably, the tube 72 comprises aluminum, although any other
suitable material may be used.
[0185] It is envisioned that the orientation of the tube 72 may be
set during manufacture, may be modified by the user, or may be
modifiable by the manufacturer or a designated fitting location.
The tube 72 has a diameter td of about 0.3 to 0.5 inch and a length
tl of about 2 to 3 inches. It will be appreciated that more than
one tube 72 could be provided in the club head 50 at any one time
as illustrated in FIG. 11, or that multiple tubes 72 with a
different mass may be provided to the user or fitting location.
[0186] FIG. 16 illustrates an alternative embodiment for placement
of the tube 72 within the club head 50. In this embodiment, the
tube 72 has threads 84 on both ends 86 and 88 that interlock in
threaded engagement to the mating threads 90 on a block 92 inside
the club head adjacent the face 54 and threads 94 on a block 96
adjacent the skirt 60 of the club head 50. The tube 72 is fastened
to the inside of the club head 50 adjacent the face 54. It is
envisioned that the orientation of the tube 72 may be set during
manufacture, may be modified by the user, or may be modifiable by
the manufacturer or a designated fitting location.
[0187] FIG. 17 illustrates the tube 72 of the embodiment of FIG. 16
showing the dual threaded ends 86 and 88 of the tube that may be
inserted in either direction into the club head 50 and threadedly
received adjacent the face 54. The tube 72 has a diameter td and a
length tl as described above and the weight 74 and tube 72 have a
similar mass as described above. The exterior of the tube 72 would
align substantially flush with the outer surface 82 of the club
head 50.
[0188] FIG. 18 shows an alternative embodiment for the weight
system 70 where a weight 98 may be slid along a pipe 100 provided
in the club head 50. The exterior surface 102 of the sole 56 of the
club head 50 may feature a mechanism 104 to move the weight 98
along the pipe 100 to the desired location to move the c.g. for the
desired ball flight as described above. Alternatively, the position
of the weight 98 on the pipe 100 may be set during manufacture of
the club head.
[0189] FIG. 19 features another alternative embodiment for the
weight system 70. This embodiment features two or more cavities 106
in the sole 56 of the club head 50 for receiving inserts 108. The
cavities 106 may be placed in any desired location on the club head
50. As illustrated, the three cavities 106 are provided along an
axis O offset from the x-axis. The cavities 106 may be aligned
parallel to the x-axis or may be offset in either direction. The
cavities 106 may be provided on an axis O offset from the x-axis by
0 to 90 degrees in either direction. The back portion 110 of the
club head may feature deeper cavities 106 to mimic the angle of the
tube 72 described above relative to the plane formed by the z-axis
and x-axis. The inserts 108 may have different mass and may be
placed in the different cavities 106 to move the c.g. to a desired
location. The inserts 108 may be movable by the user, or they may
be set at the time of manufacture or modifiable in a fitting
environment.
[0190] FIG. 20 illustrates yet another alternative embodiment of
the weighting system 70 for moving the center of gravity along the
y-axis. As illustrated, the club head 50 features a vertical cavity
112 extending from the sole 56 into the hollow volume 64 of the
club head. The cavity 112 may be placed in any desired location in
the sole 56, for example centered along the width of the face 54
and located more toward the back of the club head 50, as
illustrated. A weight 114 is made to fit within the cavity 112,
such that it mates securely within the cavity 112. It will be
appreciated that the weight 114 may be secured in the cavity in any
suitable manner, including threaded engagement, epoxy, mechanical
lock, or other joining method. As illustrated, the cavity 112 is
cylindrical and the weight 114 is a corresponding cylindrical plug,
although it will be appreciated that the weight 114 and mating
cavity 112 may be any suitable shape and size. The weight 114
features a heavy end 116 and a lighter end 118. The heavy or
lighter end 116 and 118 may be placed closer to the sole 56 to move
the c.g. to the desired location along the y-axis. It is envisioned
that the orientation of the orientation of the weight 114 may be
set during manufacture, may be modified by the user, or may be
modifiable by the manufacturer or a designated fitting location.
This embodiment may assist in isolating just one attribute, moving
the c.g. along the y-axis, thereby making club fitting more
straight forward.
[0191] As illustrated in FIG. 21, the movement of the c.g. is
illustrated based on the construction of FIG. 13. It illustrates
the movement of the c.g. along the y-axis and z-axis between a
normal Titleist 904F fairway wood without a weight system, a club
head 50 with the weight system 70 of FIG. 13 having the weight 74
in the back of the club head 50, and a club head 50 with the weight
system 70 of FIG. 13 having the weight 74 in the front of the club
head 50. FIG. 21 illustrates the relative position of the c.g.
along the y-axis and z-axis for these various club heads.
[0192] As illustrated in FIG. 22, the movement of the c.g. is
illustrated based on the construction of FIG. 13. It illustrates
the movement of the c.g. along the y-axis and x-axis between a
normal Titleist 904F fairway wood without a weight system, a club
head 50 with the weight system 70 of FIG. 13 having the weight 74
in the back of the club head 50, and a club head 50 with the weight
system 70 of FIG. 13 having the weight 74 in the front of the club
head 50. FIG. 22 illustrates the relative position of the c.g.
along the y-axis and x-axis for these various club heads.
[0193] As illustrated in FIG. 23, the movement of the c.g. is
illustrated based on the construction of FIG. 16. It illustrates
the movement of the c.g. along the y-axis and z-axis between a
normal Titleist 904F fairway wood without a weight system, a club
head 50 with the weight system 70 of FIG. 16 having the weight 74
in the back of the club head 50, and a club head 74 with the weight
system 70 of FIG. 16 having the weight 74 in the front of the club
head 50. FIG. 23 illustrates the relative position of the c.g.
along the y-axis and z-axis for these various club heads.
[0194] As illustrated in FIG. 24, the movement of the c.g. is
illustrated based on the construction of FIG. 16. It illustrates
the movement of the c.g. along the y-axis and x-axis between a
normal Titleist 904F fairway wood without a weight system, a club
head 50 with the weight system 70 of FIG. 16 having the weight 74
in the back of the club head 50, and a club head 50 with the weight
system 70 of FIG. 16 having the weight 74 in the front of the club
head 50. FIG. 24 illustrates the relative position of the c.g.
along the y-axis and x-axis for these various club heads. The
locations of the c.g. shown in FIGS. 21-24 were calculated using a
commercially available CAD (computer aided design) system.
[0195] FIG. 25 of the accompanying drawings shows a perspective
view of a golf club head 250 in accordance with an alternative
embodiment of the present invention. This embodiment of the present
invention has one or more cavities 206 in the sole of the club head
250 for receiving a weighted insert 208. The cavity 206 in this
embodiment may generally be shown in a generally elongated
cylindrical shape with an opening 211 that exposes the cylindrical
weighted insert 208 to the sole of the golf club head 250. The
orientation of the cavity 206 and the weighted insert 208 may
generally be offset at an angle from the striking face of the club
head to promote the change in the center of gravity of the club
head 250 along two or more axis. In order to show the offset angle
of the weighted insert 208, FIG. 26 is provided showing an exploded
sole view of a golf club 250 having a weighted insert 108 in
accordance with this alternative embodiment of the present
invention.
[0196] FIG. 26 of the accompanying drawings shows an exploded sole
view of a golf club 250 having a weighted insert 208. More
specifically, FIG. 26 shows the cavity 206 and the weighted insert
208 aligned along an axis O that is offset from the x-axis at an
angle .theta.. This angle .theta., similar to the prior discussion
in FIG. 19, may generally be offset from the x-axis by an angle of
0 to 90 degrees in either direction, but more preferably between
about 0 to about 90 degrees in the positive direction, more
preferably between about 3 to about 45 degrees, and most preferably
between about 5 to about 35 degrees all without departing from the
scope and content of the present invention. Having the axis O
offset from the x-axis is beneficial to the present invention
because it allows the weighted insert 208 to alter the center of
gravity of the golf club head along the x-axis and the z-axis
simultaneously, depending on the orientation of the weighted insert
208. However, in order to achieve this, the weighted insert 208
must within itself, have some inherent weighting characteristics
that favor such an extreme movement in the center of gravity.
[0197] The exploded view of the golf club 250 with the weighted
insert 208 shown in FIG. 26 also allows the inherent weighting
characteristics of the weighted insert 208 to be shown. In this
figure, the weighted insert 208 may be further comprised of a heavy
end 216, a lighter end 218, and a cap 219. The utilization of a
heavy end 216 and a lighter end 218 in this type of weighted insert
208 maximizes the bi-directional adjustability of the elongated
cylindrical weighted insert 208 to shift the center of gravity of
the golf club head 250. In a first orientation, when the heavy end
216 is located close to the cap 219 near the toe end of the golf
club head 250, the center of gravity of the golf club head is
shifted forward and toe-ward relative to the neutral position;
while in a second orientation, when the heavy end is located away
from the cap 210 near the heel end of the golf club head 250, the
center of gravity of the golf club head will be shifted rearward
and heel-ward relative to the neutral position.
[0198] Due to the nature of the orientation of the weighted insert
208 being at an orientation that is offset from the x-axis,
combined with its internal weighting components with a heavy end
216 and a lighter end 218, the length of the weighted insert 208
becomes important; as an increase in the length of the weighted
insert 208 results in a greater effect on the center of gravity of
the golf club head 250. Hence, in order to achieve a discernible
change in the center of gravity of the golf club 250 by the change
in orientation of the weighted insert 208, the length of the
weighted insert 208 may generally be between about 50 mm to about
100 mm, more preferably between about 60 mm to about 90 mm, even
more preferably between about 70 mm to about 80 mm.
[0199] The heavy end 216 of the weighted insert 208 may generally
be comprised of a material having a relatively high density such as
tungsten with a density of greater than about 10.9 g/cm3; however
numerous other materials may be used without departing from the
scope and content of the present invention so long as it has a
density greater than the remainder of the weighted insert 208. The
lighter end 218 of the weighted insert could be made out the same
tungsten material as the heavy end 216, but in a smaller volume.
However, alternative materials for the lighter end 218 such as
steel, titanium, or any other material having a density greater
than the central part of the weighted insert 208 all without
departing from the scope and content of the present invention. The
central portion of the weighted insert 208 may generally be
juxtaposed and placed between the heavy end and the lighter end. In
order to maximize the effects of the heavy end 216 and the lighter
end 218, the central portion of the weighted insert 208 may
generally be made out of a lightweight material such as carbon
fiber composite, aluminum, magnesium, plastic, or any other
lightweight material with a density of less than about 2.5 g/cm3
all without departing from the scope and content of the present
invention.
[0200] In the embodiment shown, the threaded cap 219 may help
retain the weighted insert 208 using a compressive force as shown
in the cross-sectional view shown in FIG. 27. However, in
alternative embodiments of the present invention, the cap 219 may
be magnetic in nature to further enhance the bond between the cap
219 and the weighted insert 208.
[0201] In order to illustrate the inner workings of the weighted
insert 208 and the golf club 250, FIG. 27 is provided here with a
cross-sectional view of the golf club head 250 along
cross-sectional line O, as shown previously in FIG. 26. The
cross-sectional view of the golf club head 250 allows the
relationship between the weighted insert 208, the heavy end 216,
the lighter end 218, the cap 219, and the cavity 206 to be shown in
more detail. As it can be seen in FIG. 27, the cavity 206 may
generally have a chamfered portion around its terminal end,
matching the geometries of the extremities of the heavier end 216
and the lighter end 218 to allow either the heavier end 216 or the
lighter end 218 to sit inside the cavity 206. Another feature worth
identifying in this cross-sectional view is the difference in the
construction of the heavy end 216 and the lighter end 218. In order
to create the mass difference between the heavy end 216 and the
lighter end 218, the heavy end 216 could be a dense solid piece of
tungsten, while the lighter end 218 could be a hollow piece of
tungsten. In alternative embodiments of the present invention, the
lighter end 218 could even be made out of lightweight material such
as aluminum, steel, or any other material having a density lower
than tungsten all without departing from the scope and content of
the present invention. In a further alternative embodiment of the
present invention lighter end 218 may even be formed out of the
same piece as the remainder of the weighted insert 208 without
departing from the scope and content of the present invention. In
order to further exaggerate the weighting effects, the central
portion of the weighted insert 208 may generally be a hollow
composite type material, as shown in the cross-sectional view in
FIG. 27. Finally, FIG. 27 shows a threaded cap 219 to coincide with
a threaded entry portion of the cavity 206 to secure the weighted
insert 208 within the cavity 206.
[0202] In an alternative embodiment of the present invention, the
central portion of the weighted insert 208 could have some mass
properties of its own. In one example, the central portion could
have its own heavier side and a lighter side, creating even more
weighting adjustments. In one setting, the heavier side 216 could
be on the same side as the heavier side of the central portion,
creating an ultra-heavy side and an ultra-light side to the
weighted insert 208. However, in another setting, the heavier side
216 could be paired with the lighter side of the central portion,
with the weighting characteristics of the components cancelling
each other out to create a more neutral setting.
[0203] In a further alternative embodiment of the present
invention, the cap 219 may contain a see through window within the
"cavity of the opening" to allow the user to see the terminal
surface of the weighted insert 208. The window, in one exemplary
embodiment, may be made out of see through flexi-glass, however,
numerous other materials may be used to provide a see through
window without departing from the scope and content of the present
invention. Having a see through window will allow the orientation
of the weighted insert 208 to be seen without the need to
disassemble the weighted insert 208 from the cavity 206. In order
to achieve this, the end surfaces of the weighted insert 208 could
be painted different colors, with each of the two different colors
indicating whether the lighter end 218 or the heavy end 216 is
shown.
[0204] It should be noted that in this embodiment, the body portion
of the weighted insert 208 is exposed to the external sole portion
of the club head 250, which allows an external component such as a
sleeve 213 to be used to adjust the way the club head 250 contacts
a ground plane. FIG. 28 of the accompanying drawings shows this
exploded view of an alternative embodiment of the present invention
wherein an additional sleeve 213 is added to the assembly,
coinciding with the exposed portion 211 of the cavity 206. The
sleeve, as it can be seen, may generally circumferentially
encompass the external surface of the weighted insert 208 to create
the change in sole contact. In this embodiment, the sleeve 213
could be a triangular shape with each edge of the triangle having a
different angle, thus creating three different methods for the golf
club 250 to rest on the ground plane. However, numerous other
geometries such as a cylindrical rod, a rectangular rod, an oval
rod, or any other shape without departing from the scope and
content of the present invention so long as it is capable of
creating multiple different sole contacts. In a further alternative
embodiment, the external walls of the sleeve 213 could even be
tapered to create more of a change in the sole contact. The
creation of different sole contact planes allows the golf club head
to compensate and change for differences in the loft, lie, or even
the face angle of the golf club head 250.
[0205] Moving on to FIG. 29, a perspective sole view of a golf club
head 250 in accordance with a further alternative embodiment of the
present invention is shown. More specifically, the golf club head
250 shown in this embodiment is very similar to the golf club head
250 shown in FIGS. 25-28, except that the weighted insert 208
extends through the internal cavity of the golf club head 50
without being exposed to the sole portion of the golf club head.
The weighted insert, although only exposed at the extremities,
still have a cavity 206 at one end to allow the weighted insert to
be used.
[0206] The exploded sole view of the golf club head 250 shown in
FIG. 30 illustrates that the current embodiment still has the
weighted insert placed along the axis O that is offset from the
x-axis. The angle .theta., similar to before, may generally be
between about 0 to about 90 degrees in the positive direction, more
preferably between about 3 to about 45 degrees, and most preferably
between about 5 to about 35 degrees all without departing from the
scope and content of the present invention. To illustrate the
internal geometry of this alternative embodiment, a cross-sectional
view is shown in FIG. 31 to provide and show how the weighted
insert 208 is completely contained within the walls of the club
head 250.
[0207] FIGS. 32 and 33 shows exploded sole views of club heads 250
in accordance with further alternative embodiments of the present
invention. More specifically, the club heads 250 shown here may
generally be smaller sized metalwood type club heads such as a
fairway wood or a hybrid type club heads 250. It should be noted
here that these embodiments illustrate a very important
relationship between the volume of the golf club head 250 and the
angle .theta. of the weighted insert 208 relative to the x-axis.
Because the adjustment of the center of gravity of the golf club
head 250 is a very specific art form, the angle .theta. of
placement of the weighted insert 208 along the sole is a key
factor. More specifically, the relationship between the angle
.theta. and the volume of the club head 250 could be quantified as
an Angle to Volume Ratio, wherein the Angle to Volume Ratio is
defined as the angle .theta. of the placement of the weighted
insert 108 divided by the volume of the club head 250. The current
invention, may generally have an Angle to Volume Ratio of between
about 0.02 degrees/cc to about 0.25 degrees/cc, more preferably
between about 0.05 degrees/cc to about 0.25 degrees/cc, most
preferably between about 0.10 degrees/cc to about 0.20
degrees/cc.
[0208] FIG. 34 of the accompanying drawings shows an exploded view
of a weighted insert 208 in accordance with an alternative
embodiment of the present invention. The weighted insert 208 has a
heavy end 216 piece of the weighted insert 208 and a light end 218
piece of the weighted insert 208 being created by cylindrical
pieces that removably slide around a bolt 220. By reversing the
orientation of the heavy end 216 piece and the light end 218 piece,
the center of gravity of the weighted insert 208 could be adjusted
without departing from the scope and content of the present
invention. Needless to say, in alternative embodiments of the
present invention there could be more than two weight members with
different mass properties without departing from the scope and
content of the present invention.
[0209] FIG. 35 of the accompanying drawings shows an exploded view
of a weighted insert 208 in accordance with a further alternative
embodiment of the present invention. The weighted insert 208 in
this embodiment may be comprised of a heavy end 216 piece and a
light end 218 piece, both fitting internally in a tube 221. Similar
to the embodiment above, reversing the orientation of the heavy end
216 piece and the light end 218 piece can alter the center of
gravity of the weighted insert 208, which can result in change of
the center of gravity of the golf club head in general.
[0210] FIG. 36 of the accompanying drawings shows a cross-sectional
view of a weighted insert 208 in accordance with an even further
alternative embodiment of the present invention. In this embodiment
of the present invention, the weighted insert 208 may contain a
heavy end 216 piece that is threaded externally like a screw. The
external threads of the heavy end 216 piece may then engage
internal threads in the tube to allow the heavy end 216 piece to
provide an infinitesimal amount of adjustment settings throughout
the threaded region of the tube. The heavy end 216 piece is rotated
within the tube via a tool that engages the heavy end 216 piece via
an opening in one side of the weighted insert 208.
[0211] FIG. 37 of the accompanying drawings shows an exploded view
of a weighted insert 208 in accordance with an even further
alternative embodiment of the present invention wherein an
alternative cap 219 is used. The cap 219 in this embodiment of the
present invention may contain a pin 223 with a ball 224 at the end
of the cap 219 to engage a "church key" shaped notch or slot 225.
This ball and notch embodiment will allow the cap to be centered
onto the weighted insert 208 and prevent the cap from being lost
during disassembly and assembly. Although FIG. 37 only shows the
ball and notch in the heavy end 216 portion of the weighted insert
208, the same geometry can be incorporated into the light end 218
to provide interchangeability of the orientation without departing
from the scope and content of the present invention.
[0212] FIG. 38 of the accompanying drawings shows an exploded view
of a weighted insert 208 in accordance with an even further
alternative embodiment of the present invention. In this
embodiment, the cap 219 is retained together with the weighted
insert 208 using a snap fit 226 type mechanism that hooks onto a
recessed rim 227 on the weighted insert 208 itself. In an
alternative embodiment, the snap fit 226 could also be made out of
a detent type mechanism that prohibits the cap from separating from
the weighted insert 208 without departing from the scope and
content of the present invention. It is worth noting that the
weighted insert 208 has a recessed rim 227 at both the heavy end
216 and the light end 218, so the cap 219 could be placed at either
extremity of the weighted insert without departing from the scope
and content of the present invention.
[0213] FIG. 39 of the accompanying drawings shows an exploded view
of a golf club 250 in accordance with a further alternative
embodiment of the present invention. The weighted insert 208 in
this embodiment be further comprised of a tube 230 to shield the
weighted insert 208 from contact with any potential debris in the
cavity of the golf club head 250. In this embodiment the tube 230
may generally have a diameter that is slightly bigger than the
diameter of the weighted insert 208, and be snap fit into the
cavity 206 without departing from the scope and content of the
present invention. However, in other embodiments, the tube 230 may
also be threaded into position in the cavity 206 instead of being
snap fit in to provide more structural rigidity also without
departing from the scope and content of the present invention.
Furthermore, the tube 230 may also be glued into place without
departing from the scope and content of the present invention.
[0214] In a preferred embodiment of the present invention, the tube
230 may generally be made out of a plastic type material in order
to create this barrier against debris without adding additional
weight to the weighted insert. However, numerous other material
could be used without departing from the scope and content of the
present invention so long as it provides a cover for the weighted
insert.
[0215] FIG. 40 provides a close up view of the tube 230 in
accordance with an embodiment of the invention as shown in FIG. 39.
As it can be seen, the tube 230 has a notched opening, lengthwise
along the entire length of the tube 230. This opening allows the
tube to compress and reduce its diameter when it is being inserted
into the cavity 206 shown in FIG. 39. When the tube decompresses
thereby expanding its diameter, it will generally snap into a
specific orientation within the cavity of the golf club head
leaving the opening facing the crown portion of the golf club head.
In an alternative embodiment of the present invention, the opening
could be faced towards the back or front of the golf club head to
promote to help with the stress levels without departing from the
scope and content of the present invention. Having the opening of
the tube facing the crown portion of the golf club head is
beneficial because most of the debris in the cavity of the golf
club head tends to be located towards the sole portion of the golf
club head. In addition to the debris, it is common knowledge that a
type of glue is usually injected into the internal cavity of the
golf club head to make final adjustments to the club head weight.
This glue type material, if it comes in contact with the weighted
insert 206, may prevent it from being movable and interchangeable.
In order to prevent this undesirable effect, the tube 230 cover is
created to prevent such a contact.
[0216] FIG. 41 of the accompanying drawings shows an enlarged
partial cross-sectional view of a weighted insert 208 in accordance
with a further alternative embodiment of the present invention. In
this embodiment, instead of using a snap fit or detent mechanism to
secure the cap 219 to the heavy end 216 of the weighted member 208,
a clip 231 is used to secure the cap 219 to the weighted insert
208.
[0217] FIG. 42 of the accompanying drawings shows an enlarged
partial cross-sectional view of a weighted insert 208 in accordance
with another alternative embodiment of the present invention. In
this embodiment, the weighted insert is retained in the golf club
head in tension rather than in compression as all of the previous
embodiments have shown. In this embodiment, there is a slidable
retainer 235 that can travel lengthwise along the weighted insert
208 to provide a stopping point for the weighted insert 208. Once
the retainer 235 is engaged, a screw can be used to secure the
weighted insert in the cavity.
[0218] FIG. 43 of the accompanying drawings shows an enlarged
partial cross-sectional view of a weighted insert 208 in accordance
with another further alternative embodiment of the present
invention. In this embodiment of the present invention, the
weighted insert 208 is neither in tension nor compression. Rather,
the weighted insert may have threads on both the heavy end 216 and
the light end 218 to more securely attach the weighted insert 208
to the golf club head.
[0219] Low friction lubricants, materials, and coatings could be
added to various portions of the weighted inserts, caps, cavities,
etc described herein. Some advantages might include allowing the
weighted insert to rotate freely within the cavity during impact
between the golf club head and golf ball without affecting the
locking mechanisms and minimizing the risk of inadvertent unlocking
of the weighted insert. Examples of low friction coatings may
include, for example, physical vapor deposition, teflon, molybdenum
disulfide, etc.
[0220] FIG. 44 of the accompanying drawings shows a perspective
view of a weighted insert 308 in accordance with another further
alternative embodiment of the present invention. FIG. 45
illustrates a cross section of a golf club head 350 including the
weighted insert 308 of FIG. 44. FIG. 46 illustrates a perspective
view of the weighted insert 308 of FIG. 44. FIGS. 47 and 48
illustrate perspective views of a head locking member 330 of the
golf club head 350 of FIG. 45. In this embodiment, the weighted
insert 308 has a heavy end 316 and a light end 318. The weighted
insert 308 can be inserted into a cavity 306 formed in the golf
club head 350 either heavy end 316 first, as illustrated, or light
end 318 first. By reversing the orientation of the weighted insert
308, the center of gravity of the golf club head 350 can be
manipulated. The golf club head 350 can include a terminal member
320 at a terminal end 312 of the cavity 306 configured to receive
the weighted insert 308. The golf club head 350 can also include a
head locking member 330 configured to receive the weighted insert
308.
[0221] The weighted insert 308 can include an insert locking member
319 configured to lock the weighted insert 308 in the golf club
head 350. The insert locking member 319 can be configured to engage
the head locking member 330. The insert locking member 319 can
include an insert locking feature 342, as illustrated in FIG. 46.
The head locking member 330 can include a head locking feature 332
as illustrated in FIGS. 47 and 48. The insert locking feature 342
and head locking feature 332 can be configured to lock the weighted
insert 308 in the cavity 306 of the golf club head 350 by rotating
the insert locking member 319 relative to the head locking member
330. In a preferred embodiment, as illustrated in FIGS. 44-48, the
head locking member 330 and insert locking member 319 are
configured to lock the weighted insert 308 with less than 180
degrees of rotation of the insert locking member 319. In a more
preferred embodiment, the head locking member 330 and insert
locking member 319 are configured to lock the weighted insert 308
with less than 135 degrees of rotation. In a more preferred
embodiment, the head locking member 330 and insert locking member
319 are configured to lock the weighted insert 308 with less than
90 degrees of rotation. In some embodiments, as illustrated in
FIGS. 45 and 46, the insert locking member 319 can abut the end of
the weighted insert 308, forcing it towards the terminal end of the
cavity 306. In some embodiments, it may releasably engage to each
end of the weighted insert 308 similar to the cap 219 as
illustrated in FIG. 38. In other embodiments, the insert locking
member 319 can be affixed to the weighted insert 308. In some
embodiments, the insert locking member 319 may be formed integrally
with the weighted insert 308. In some embodiments, the weighted
insert can include an insert locking member 319 at both ends of the
weighted insert 308.
[0222] As illustrated in FIGS. 44, 47, and 48, the head locking
feature 332 of the head locking member 330 includes at least one
slot 334 angled relative to a longitudinal axis of the weighted
insert 308, the longitudinal axis extending through the center and
along the length of the weighted insert 308. The insert locking
member 319, as illustrated in FIG. 46, includes at least one
protrusion configured to slide within the slot 334. The insert
locking member 319 also includes a tool engagement feature 309
configured to interact with a tool and allow a user to apply a
torque to the insert locking member 309. As the insert locking
member 319 is rotated relative to the head locking member 330, the
protrusion slides along the slot 334, forcing the insert locking
member 319 to translate longitudinally towards the terminal member
320, forcing the weighted insert 308 towards the terminal end 312
of the cavity 306. Additionally, a spring 360 may be included in
the cavity 306. The spring 360 can be located near the terminal end
312 of the cavity 306 as illustrated in FIG. 45. In additional
embodiments, the spring 360 may be located in the open side 311 of
the cavity 306. In some embodiments, the spring 360 could be
located in the insert locking member 319. In another embodiment,
the spring 360 could be located in a cap. The spring 360 can be
compressed as the insert locking member 319 forces the weighted
insert 308 towards the terminal end 312 of the cavity 306. The head
locking feature 332 can include a locked position which locks the
weighted insert 308 in the cavity 306. As illustrated in FIGS. 47
and 48, the slot 334 can include a detent 336 such that at full
rotation of the insert locking member 319, the insert locking
member 319 along with the weighted insert 308 is forced away from
the terminal end 312 of the cavity 306 by the spring 360 a small
distance, locking the protrusion of the insert locking feature 342
into the detent 336 of the slot 334 of the head locking member 330.
Another way to describe the detent 336 would be that the slot 334
has an inflection point such that rotation of the insert locking
member 319 initially forces the insert locking member 319 towards
the terminal end 312 of the cavity 306 but once the insert locking
feature 342 passes the inflection point in the slot 334, the insert
locking member 319 is forced away from the terminal end 312 of the
cavity 306. The insert locking member 319 is held in the locked
position by the spring 360 forcing the insert locking feature 342
into the detent 336 of the slot 334, preventing rotation of the
insert locking member 319 and thus preventing translation of the
weight insert 308. In some embodiments, examples of springs 360 may
include, coil springs, wave washer springs, conical washer springs,
rubber springs, elastomer springs, as well as combinations thereof,
etc.
[0223] The terminal member 320 and/or head locking member 330 can
be integrated into various portions of the golf club head 350 which
may include, for example, the sole (as illustrated), the skirt, the
crown, etc. The terminal member 320 and/or head locking member 330
can be formed integrally in the club head 350 or it can be formed
separately and affixed to the club head 350 as illustrated in FIG.
45. The terminal member 320 and/or head locking member 330 could be
affixed to the golf club head 350 in a number of ways which may
include, for example, welding, adhesive, threaded engagement, etc.
FIG. 45 depicts the terminal member 320 and head locking member 330
incorporating male threads which engage female threads formed in
the cavity 306 of the golf club head 350.
[0224] FIG. 49 of the accompanying drawings shows a perspective
view of a weighted insert 408 in accordance with another further
alternative embodiment of the present invention. FIG. 50
illustrates a cross section of a golf club head 450 including the
weighted insert 408 of FIG. 49. FIG. 51 illustrates a perspective
view of the weighted insert 408 of FIG. 49 including a spring 460
and centering member 462. FIG. 52 illustrates a perspective view of
the spring 460 and centering member 462 of FIG. 51. FIG. 53
illustrates a perspective view of a spring 560. FIG. 54 illustrates
a perspective view of a low friction member as well as the spring
of FIG. 53.
[0225] The weighted insert 408 includes an insert locking member
419 integrated into each end of the weighted insert 408. This
allows the weighted insert 408 to be flipped and reinserted into
the golf club head 450 without the need to remove and reattach a
removable insert locking member to the opposite end of the weighted
insert 408. The head locking member 430 head locking feature 432
can include an additional track (not illustrated) to ensure the
insert locking feature 442 can pass through, allowing the weighted
insert 408 to be fully inserted into the cavity 406 of the golf
club head 450. In another embodiment, the head locking member 430
could be centrally located in the cavity 406 and insert locking
member 419 could be centrally located on the weighted insert 408,
allowing a single insert locking member 419 to interact with the
head locking member 430, no matter the orientation of the weighted
insert 408.
[0226] As illustrated in FIGS. 50 and 51, the cavity 406 can
include a spring 460 and a centering member 462. The spring 460 can
function as described in earlier embodiments. The spring 460
illustrated in FIG. 52 is composed of wave washers. Additionally, a
centering member 462 can also reside in the cavity 406 to transfer
the force of the spring 460 to the weighted insert 408. The
centering member 462 can include a centering feature 464 which is
pointed to help center the weighted insert 408 within the cavity
406 at the terminal end 412 of the cavity 406. The centering member
462 can be configured to engage the tool engagement feature 409 of
the weighted insert 408. The centering member 462 can be configured
to have a low coefficient of friction relative to either the
weighted insert 408 or the spring 460, allowing the weighted insert
408 to rotate relative to the golf club head 450. In other
embodiments, the weighted insert 408 can be centered by the inner
wall of the terminal member of the cavity 406. As illustrated in
FIGS. 53 and 54, the spring 560 can be non-metallic and may be
comprised of rubber, elastomer, plastic, or other compressible
materials. The spring 560 may also have reliefs formed in its
geometry so as to ensure it does not become infinitely stiff as it
is compressed inside the terminal end 412 of the cavity 406.
Additionally, the weighted insert 508 and spring 560 may have
tapered surfaces configured to engage one another when the weighted
insert 508 is inserted into the cavity 406 of the golf club head
450. In some embodiments, as illustrated in FIG. 54, a low friction
member 566 may be installed between the spring 560 and weighted
insert 508 to promote low friction between the weighted insert 508
and spring 560, allowing the weighted insert 508 to rotate
freely.
[0227] FIG. 55 of the accompanying drawings shows a perspective
view of an insert retaining member 670. The embodiment illustrated
in FIG. 59 incorporates the terminal member 620, and head locking
member 630 into an insert retaining member 670. This allows the
entire assembly to be permanently installed in the golf club head
as a single piece, reducing assembly costs. In addition to
including a head locking feature 632 to lock the weighted insert
608 in place, the insert retaining member 670 can include a sheath
portion 672 (see FIG. 55) preventing debris and/or hot melt within
the golf club head from contacting the weighted insert 608. In some
embodiments, the sheath portion can be made of a lightweight
material such as plastic and can also be made very thin. The sheath
can be multi-material in that it includes a base structural portion
with a plurality of apertures which is covered with a thin
lightweight material sealing off the cavity from the remainder of
the golf club head interior. The insert retaining member can be
formed from a single piece or can be formed of a plurality of
pieces. The insert retaining member can be permanently adhered to
the golf club head in a number of ways which may include, for
example, adhesives, welding, etc.
[0228] FIG. 56 illustrates a perspective view of a weighted insert
608 with a sliding insert locking member 619. FIG. 57 illustrates a
perspective view of a sliding insert locking member 619. FIG. 58
illustrates a perspective view of the weighted insert 608 of FIG.
56. FIG. 59 illustrates a cross sectional view of the weighted
insert 608 of FIG. 56 installed in the insert retaining member 670
of FIG. 55. The sliding insert locking member 619 of FIGS. 56-59 is
configured to slide along the weighted insert 608 when the
orientation of the weighted insert 608 is flipped, allowing it to
be located at the opening of the cavity and to engage the head
locking feature 632, locking the weighted insert 608 in place.
[0229] The weighted insert 608 can include anti-rotation features
644 configured to engage anti-rotation features 643 on the sliding
insert locking member 619, allowing torque applied to the weighted
insert 608 via the tool engagement feature to be transferred to the
sliding insert locking member 619, and thus allowing the sliding
insert locking member 619 to rotate relative to the head locking
member 630 and lock the weighted insert 608 in place. In the
embodiment illustrated in FIG. 59, the head locking member 630 is
integrated into the insert retaining member 670 and includes head
locking features 632 similar to those described above.
[0230] As illustrated in FIG. 56, the anti-rotation feature 644 of
the weighted insert 608 can include rails protruding from the
weighted insert 608 configured to engage the sliding insert locking
member 619. As illustrated in FIG. 57, the anti-rotation member 643
of the sliding insert locking member 619 can include channels
configured to engage the rails of the weighted insert 608. In some
embodiments, the channels and rails can resemble splines. In
another embodiment, the roles could be reversed and the weighted
insert 608 could include channels and the sliding insert locking
member 619 could include rails. In addition, as illustrated in
FIGS. 57 and 59, the sliding insert locking member 619 can further
include slide locks 680 configured to lock the sliding insert
locking member 619 at the end of the weighted insert 608. As
illustrated in FIGS. 57 and 59, the slide lock 680 can comprise one
or more deflectable arms 682, each having a shelf 684 configured to
grab the end of the weighted insert 608 once it is slid to the end
of the weighted insert 608. When the user wants to slide the
sliding insert locking member 619 to the opposite end of the
weighted insert 608, once a threshold slide force is applied to the
sliding insert locking member 619, the deflectable arm 682 will
deflect, unlocking the sliding insert locking member 619 from the
end of the weighted insert 608 and allowing it to slide towards the
opposite end. The sliding insert locking member 619 can include
slide locks 680 on the opposite end of the sliding insert locking
member 619 configured to lock the sliding insert locking member 619
at the opposite end of the weighted insert 608.
[0231] FIG. 60 illustrates a perspective view of an additional
embodiment of the weighted insert and sliding insert locking member
of FIG. 56. FIG. 61 illustrates a cross sectional view of the
weighted insert 708 and sliding insert locking member 719 of FIG.
60. In the embodiment illustrated in FIGS. 60 and 61, the insert
locking feature 742 of the sliding insert locking member 719
comprises threads similar to the cap 219 illustrated in FIG. 38
configured to engage threads located on the head locking member
(not illustrated), as opposed to the head locking features and
insert locking features described herein.
[0232] FIG. 62 illustrates a perspective view of an additional
embodiment of a weighted insert 808. FIG. 63 illustrates a
perspective view of components of the weighted insert 808 of FIG.
62. FIG. 64 illustrates a cross sectional view of the weighted
insert 808 of FIG. 62. The weighted insert 808 illustrated in FIGS.
62-64 contains a spring 860 internally, and does not require an
additional spring in the cavity of the golf club head. The weighted
insert 808 includes a first portion 874 and a second portion 875,
the second portion 875 configured to slide longitudinally along the
axis of the weight insert 808, relative to the first portion 874.
In one embodiment, as illustrated in FIG. 64, the weight insert 808
may further comprise a third portion 876. The first portion 874 can
be affixed to the third portion 876. The third portion 876 can
include a sliding bore 861 configured to slidably receive the
second portion 875. The second portion 875 can be configured to
slide within the sliding bore 861 of the third portion 876.
Additionally, the sliding bore 861 can include a spring 860,
configured to force the second portion 875 away from the first
portion 874. Additionally, the second portion 875 can include a
slide stop 878, configured to limit the travel of the second
portion 875 relative to the third portion 876 once assembled. In an
additional embodiment the first portion 874 may be formed
integrally with the third portion 876.
[0233] FIG. 65 illustrates a perspective view of an additional
embodiment of a weighted insert 908. FIG. 66 illustrates a cross
sectional view of the weighted insert 908 of FIG. 65. Similar to
the weight insert 808 of FIGS. 62-64, the weight insert 908 of
FIGS. 65 and 66 does not require an additional spring as it is
configured to decrease and increase in length when being used in
conjunction with the other head locking features and insert locking
features described herein. The weighted insert 908 of FIGS. 65 and
66 includes a first portion 974 at one end of the weight insert 908
and a second portion 975 at the opposite end of the weight insert
908. The weight insert also includes a third portion 976 affixed to
both the first portion 974 and the second portion 975. The third
portion 976 is configured to deform in length along the
longitudinal axis of the weight insert 908 as the ends of the
weight insert 908 are forced together. As illustrated in FIGS. 65
and 66, the third portion 976 can include a spiral cut along at
least a portion of its length, allowing the third portion 978 to
act as a spring 960. Additionally, the weight insert 908 can
include a fourth portion 977 configured to slide within the third
portion 976, preventing any deformation that is not along the axis
of the weight insert 908, such as buckling. In another embodiment,
the fourth portion 977 could be located around the third portion
976.
[0234] Some of the embodiments described herein require compression
of either the weighted insert or compression of the weighted insert
along with a spring. In additional embodiments, the head locking
feature and insert locking feature may load the weighted insert in
tension rather than compression, locking the weighted insert in
place. FIG. 76 illustrates a perspective view of an additional
embodiment of a weighted insert 1308. FIG. 77 illustrates a cross
sectional view of the weighted insert 1308 of FIG. 76. The weighted
insert 1308 includes a first portion 1374 at one end of the
weighted insert 1308 and a second portion 1375 at the opposite end
of the weighted insert 1308. The weight insert also includes a
third portion 1376 affixed to both the first portion 1375 and
second portion 1375. The third portion 1376 is configured to deform
in length along the along the longitudinal axis of the weighted
insert 1308 as the ends of the weight insert 1308 are pulled apart.
As illustrated in FIGS. 76 and 77, the third portion 1376 can
include an accordion like structure, acting like a spring. The
weighted insert 1308 could include a fourth portion around the
outside of the first portion 1374, second portion 1375, and third
portion 1376, configured to prevent any deformation that is not
along the axis of the weight insert 1308, such as buckling (not
illustrated). In a tension loaded weighted insert such as the
weighted insert 1308 illustrated in FIGS. 76 and 77, the channels
of the head locking feature may be oriented at such an angle, that
rotating the weighted insert 1308 relative to the golf club head
would stretch the weighted insert 1308. Additionally, the detents
may be configured such that the tension in the weighted insert 1308
in a locked position helps to prevent the weighted insert 1308 from
coming dislodged from the detent during play. The weighted insert
1308 can also include insert locking features 1319, preferable at
both ends of the weighted insert 1308. The locking features 1319
can include protrusions 1342 configured to interact with a head
locking feature.
[0235] FIG. 67 illustrates a perspective view of an additional
embodiment of a weight insert 1008. FIG. 68 illustrates a
perspective view of an insert retaining member 1070 configured to
receive the weigh insert 1008 of FIG. 67. FIG. 69 is an end view of
the insert retaining member 1070 of FIG. 68. FIG. 70 is a cross
sectional view of the weight insert 1008 of FIG. 67 installed in
the insert retaining member 1070 of FIG. 68. The weight insert 1008
is configured to rotate into a locked position without the need for
the weighted insert 1008 to translate longitudinally within the
cavity of the golf club head. The insert locking feature 1042 of
the weighted insert 1008 includes at least one protrusion. As
illustrated in FIG. 67, the insert locking feature 1042 includes at
least one pair of protrusions with a relief 1046 between them. The
protrusions can be shaped like a rail, extending in a direction
substantially parallel to the axis of the weighted insert 1008. The
insert retaining member 1070 includes at least one channel 1085 to
receive the insert locking feature 1042 as it is installed in the
insert retaining member 1070. Additionally, the insert retaining
member 1070 includes a corresponding head locking feature 1032. The
head locking feature 1032 of the insert retaining member 1070
includes a protrusion 1087 configured to engage the relief 1046 of
the insert locking feature 1042. The protrusion 1087 of the head
locking feature 1032 can be formed on a deflectable arm 1083, which
deflects as the weighted insert 1008 is rotated, and then snaps
back as the protrusion 1087 of the head locking feature 1032
engages the relief 1046 of the insert locking feature 1042, locking
the weighted insert 1008 in the golf club head. As illustrated in
FIG. 67, the weighted insert 1008 can include insert locking
features 1042 at each end of the weighted insert 1008. In another
embodiment the insert locking features 1042 may be located
centrally on the weighted insert 1008. In another embodiment, the
insert locking features 1042 may be on a sliding insert locking
member.
[0236] FIG. 71 illustrates an additional embodiment of a weighted
insert 1108. FIG. 72 illustrates a perspective view of an insert
retaining member 1170 configured to receive the weighted insert
1108 of FIG. 71. The weighted insert 1108 is similar to the
weighted insert of FIGS. 67-70 however the protrusions and reliefs
of the insert locking feature 1142 extend in a direction oblique to
longitudinal axis of the weighted insert 1108. Additionally, the
protrusions 1187 of the head locking features 1132 are angled as
well to engage the insert locking features 1142.
[0237] FIG. 73 illustrates an additional embodiment of an insert
retaining member 1270. FIG. 74 illustrates an additional embodiment
of a weighted insert 1208 configured to reside in the insert
retaining member 1270 of FIG. 73. FIG. 75 illustrates a cross
sectional view of the insert retaining member 1270 and weighted
insert 1208 of FIGS. 73 and 74. The weighted insert 1208 is similar
to the weighted inserts of FIGS. 67-72, with a few key differences.
Rather than a pair of protrusions, the insert locking feature 1242
includes single protrusion without a relief. Additionally, the ends
of the protrusions are tapered, allowing them to contact a
corresponding taper of the head locking feature 1232 of the insert
retaining member, further limiting longitudinal movement of the
weighted insert 1208 inside the club head when the weighted insert
1208 is in a locked position. Additionally, rather than the
deflectable arms 1282 of the head locking features 1232 being
aligned perpendicular to the longitudinal axis of the weighted
insert 1208 like in earlier embodiments, the deflectable arms 1282
are aligned oblique to the longitudinal axis of the weighted insert
1208 such that as the weighted insert 1208 is rotated into a locked
position, the insert locking feature 1242 and head locking feature
1232 not only restrict rotation of the weighted insert 1208
relative to the insert retaining member 1270, but also force the
weighted insert 1208 towards the terminal end 1212 of the insert
retaining member 1270. This feature further reduces the chance of
the weighted insert 1208 moving within the club head once in a
locked position and prevents any rattling when the club head
strikes a golf ball.
[0238] In a preferred embodiment, the head locking features and
insert locking features described herein are configured to lock the
weighted insert with less than 180 degrees of rotation of the
insert locking member. In a more preferred embodiment, the head
locking features and insert locking features are configured to lock
the weighted insert 308 with less than 135 degrees of rotation. In
a more preferred embodiment, the head locking features and insert
locking features are configured to lock the weighted insert 308
with less than 90 degrees of rotation. Additionally, the head
locking features and insert locking features described herein could
be incorporated into other embodiments, for example replacing the
threads of the cap 219 of the embodiment illustrated in FIG.
38.
[0239] In some embodiments, the weighted inserts described herein
may not have a heavy end and a lighter end, but may have a CG
located centrally along their length. Such a neutral weighted
insert could make for even more CG location options for the golf
club head if used as an option in addition to a conventional
weighted insert with a heavy end and a lighter end.
[0240] The insert locking features described and illustrated herein
have generally been offset from the ends of the weighted insert. In
some embodiments, not illustrated the insert locking features can
be located immediately adjacent the ends of the weighted insert.
Additionally, the slots of the head locking features described and
illustrated herein have generally allowed for locking of the
weighted insert inside the golf club head strictly via rotation of
the insert locking member relative to the golf club head. In some
embodiments, not illustrated, locking or unlocking of the weighted
insert can be achieved with not only rotation of the insert locking
member, but also via force along the longitudinal axis of the
weighted insert exerted on the insert locking member via the tool.
Additionally, the weighted inserts described and illustrated herein
generally have a lightweight end and a heavy end such that their
center of gravity is offset from their dimensional center. In
additional embodiments, the weighted inserts may not have an offset
center of gravity. The weighted insert may have two heavy ends or
two light ends for example. In additional embodiments, the insert
locking members described and illustrated herein may include a seal
to prevent any fluids or particles from entering or leaving the
cavity and/or golf club head.
[0241] FIG. 78 of the accompanying drawings illustrates a
perspective view of one embodiment of a golf club head 2050. FIG.
79 illustrates a perspective view of the bottom of the golf club
head 2050 of FIG. 78 including one embodiment of a weight retention
system 2090 including a first weight retention member 2091 and a
second weight retention member 2092. FIG. 80 illustrates a
perspective view of one embodiment of the weight retention system
2090 of FIG. 79. The golf club head 2050 includes a body having a
striking face 2054, a sole 2056, a crown 2058, a skirt 2060, and a
hosel 2062. The body defines a hollow interior 2064 (See FIGS. 93
and 94). The golf club head 2050 includes a weight retention system
2090 configured to receive a weighted insert 408. The weighted
insert 408 is configured such that its center of gravity can be
manipulated, by, for example, reversing the orientation of the
weighted insert 408. The weight retention system 2090 can be
configured to receive any of the weighted inserts described herein,
although the weight retention system 2090 illustrated in FIGS.
79-83 and 94 is configured to retain a weighted insert 408 as
illustrated in FIG. 86, also illustrated in FIG. 49 and described
in further detail above.
[0242] The weight retention system 2090 can include a first weight
retention member 2091 and a second weight retention member 2092 as
illustrated in FIG. 79. The weight retention system can include a
cavity configured to receive the weighted insert 408. The first
weight retention member 2091 includes an opening 2011 to receive
the weighted insert 408. The second weight retention member 2092
can comprise the terminal end 2012 of the cavity receiving the
weighted insert 408. In some embodiments, the first weight
retention member 2091 can be substantially similar to the head
locking member 330 as described above and as illustrated in FIGS.
44, 45, 47 and 48.
[0243] FIG. 81 illustrates a perspective view of the weight
retention system 2090 of FIG. 80 including a third weight retention
member 2070. FIG. 82 illustrates an additional perspective view of
the weight retention system 2090 of FIG. 81. FIG. 83 illustrates an
additional perspective view of the weight retention system 2090 of
FIG. 81. In the illustrated embodiments, the first weight retention
member 2091 is formed separately from the second weight retention
member 2092. In a preferred embodiment, the first weight retention
member 2091 can be connected to the second weight retention member
2092 via a third weight retention member 2070. FIG. 84 illustrates
a perspective view of one embodiment of the insert retaining member
of FIG. 81. FIG. 85 illustrates a cross-sectional view of the third
weight retention member of FIG. 81. The third weight retention
member 2070 can be substantially similar to the insert retaining
member 670 described herein and illustrated for example, in FIG.
55. The first weight retention member 2091 has an outer surface
2095 exposed to the exterior of the golf club head 2050 and an
interior surface 2097. Similarly, the second weight retention
member 2091 has an outer surface 2096 exposed to the exterior of
the golf club head 2050 and an interior surface 2098.
[0244] The third weight retention member 2070 can include threads
or another method of locking the third weight retention member 2070
to the second weight retention member 2092. The second weight
retention member 2092 can include a terminal portion 2092
configured to receive and engage the terminal end of the third
weight retention member 2070. Additionally, the third weight
retention member 2070 can include a head locking feature 2032 as
illustrated in FIGS. 84 and 85. In some embodiments, the head
locking feature 2032 is substantially similar to the head locking
feature 632 illustrated in FIG. 55. The head locking feature 2032
illustrated in FIGS. 84 and 85 includes at least one slot 2034 and
at least one detent 2036 similar to the head locking feature 332
illustrated in FIGS. 47 and 48. Additionally, the head locking
feature 2032 includes at least one longitudinal slot 2035 to allow
a weighted insert 408 such as the one illustrated in FIG. 86, with
a plurality of protrusions 442, to be inserted into the weight
retention system 2090 in a plurality of orientations, by allowing
at least one protrusion 442 to slide along the longitudinal slot
until it reaches the terminal end 2012 where it can rotate freely
within a terminal recess 2037. Additionally, the third weight
retention member 2070 can include reliefs 2073 for weight
savings.
[0245] FIG. 87 illustrates a perspective view of the bottom of the
golf club head 2050 of FIG. 78 including the third weight retention
member of FIG. 81. FIG. 88 illustrates an additional perspective
view of the golf club head 2050 of FIG. 87. FIG. 89 illustrates an
additional perspective view of the golf club head 2050 of FIG. 87.
FIG. 90 illustrates an additional perspective view of the golf club
head 2050 of FIG. 87. FIG. 91 illustrates a perspective view of the
bottom of the golf club head 2050 without the weight retention
system. FIG. 92 illustrates an additional perspective view of the
golf club head 2050 of FIG. 91. FIG. 93 illustrates a
cross-sectional view of the golf club head 2050 of FIG. 91. FIG. 94
illustrates a cross-sectional view of the golf club head 2050 of
FIG. 79. FIG. 95 illustrates a cross-sectional view of the golf
club head 2050 of FIG. 87.
[0246] In the illustrated embodiments, the first weight retention
member 2091 is formed separately from the second weight retention
member 2092. The third weight retention member 2070 can be formed
separately from both the first weight retention member 2091 and
second weight retention member 2092 as illustrated. In an
additional embodiment, the third weight retention member 2070 can
be formed integrally with the first weight retention member 2091.
In another additional embodiment, the third weight retention member
2070 can be formed integrally with the second weight retention
member 2092. In a preferred embodiment, the third weight retention
member 2070 is affixed to the first weight retention member 2091
and second weight retention member 2092 after the first weight
retention member 2091 and second weight retention member 2092 have
been affixed to the golf club head 2050.
[0247] As illustrated in FIGS. 91-93, the golf club head 2050
includes a first receptacle 3001 and a second receptacle 3002. The
first receptacle 3001 is configured to receive and permanently
couple to the first weight retention member 2091 and the second
receptacle 3002 is configured to receive and permanently couple to
the second weight retention member 2092. Each receptacle 3001, 3002
can include a shelf 3005, 3006 which forms an exterior surface
recessed towards the interior 2064 of the golf club head 2050
relative to the outer surface of the golf club head 2050. As
illustrated in FIGS. 91-93, the shelves 3005, 3006 are recessed
relative to the sole 2056. In other embodiments, not illustrated,
the receptacles may not be recessed. The receptacles 3001, 3002 can
include perimeter walls 3003, 3004 connecting the shelves 3005,
3006 to the golf club head 2050. The receptacles 3001, 3002 can
also include apertures 3007, 3008 exposing the golf club head
interior 2064 to the exterior of the golf club head when the weight
retention members 2091, 2092 are not installed.
[0248] As illustrated in FIG. 94, the weight retention members
2091, 2092 can be configured to reside in their respective
receptacles 3001, 3002. The interior surfaces 2097, 2098 of the
weight retention members 2091, 2092 can be configured to abut the
shelves 3005, 3006 of the receptacles 3001, 3002. Additionally, the
perimeter walls 3003, 3004 surround at least a portion of the
weight retention members 2091, 2092 helping to hold them in place.
In a preferred embodiment, the interior surfaces 2097, 2098 are
permanently affixed to the receptacles 3001, 3002. Affixation can
be achieved via adhesives, for example. The receptacles 3001, 3002
allow for the weight retention members 2091, 2092 to be installed
such that the outer surfaces 2095, 2096 are substantially flush
with the outer surface of the golf club head 2050, or more
specifically the sole 2056, as illustrated in FIGS. 86-88.
[0249] As illustrated in FIG. 95, once the first weight retention
member 2091 is installed in the first receptacle 3001 and the
second weight retention member 2092 is installed in the second
receptacle 3002, the third weight retention member 2070 can be
installed through the opening of the 2011 of the first weight
retention member 2091 and engage the second weight retention member
2092. In some embodiments, the third weight retention member 2070,
can couple the first weight retention member 2091 to the second
weight retention member 2092, further increasing the strength of
the weight retention system 2090. In some embodiments, and as
illustrated in FIGS. 91-95, at least a portion of the shelf 3005 of
the first receptacle 3001 can be inclined relative to at least a
portion of the shelf 3006 of the second receptacle 3002, such that
installation and engagement of the third weight retention member
2070 clamps the first weight retention member 2091 towards the
second weight retention member 2092 and thus the first weight
retention member 2091 against the first shelf 3005 and the second
weight retention member 2092 against the second shelf 3006.
[0250] Forming the weight retention members 2092, 2092, 2070
separately from the golf club head 2050 and then permanently
affixing them to the golf club head 2050, has advantages which
include, for example, ease of manufacture, reduced weight, etc. The
first weight retention member 2091, second weight retention member
2092 and third weight retention member 2070 can be made from a
variety of lightweight materials which may include, for example,
plastic, composite, aluminum, magnesium, fiber reinforced plastic,
fiberglass reinforced plastic, carbon fiber reinforced plastic,
resin, polymer, urethane, thermoplastics, engineering
thermoplastics, polyetheretherketone, nylon, fiber impregnated
nylon, etc. It is preferable the lightweight materials have a lower
density than the material from which the majority of the golf club
head 2050 is formed, which may include for example, titanium or
steel. As illustrated in FIG. 94, it can be advantageous to have
distance D, defined as the shortest distance between the first
weight retention member 2091 and the second weight retention member
2092, to be greater than 5 millimeters.
[0251] In an alternative embodiment, not explicitly illustrated,
the body of the golf club head can incorporate the second weight
retention member into its construction. Such an embodiment could
include a combination of the terminal end 412 illustrated in FIG.
50 with the first weight retention member 2091 and third weight
retention member 2070 illustrated in FIGS. 79-83 and the first
receptacle 3001 illustrated in FIG. 91.
[0252] In describing the present technology herein, certain
features that are described in the context of separate
implementations also can be implemented in combination in a single
implementation. Conversely, various features that are described in
the context of a single implementation also can be implemented in
multiple implementations separately or in any suitable sub
combination. Moreover, although features may be described above as
acting in certain combinations and even initially claimed as such,
one or more features from a claimed combination can in some cases
be excised from the combination, and the claimed combination may be
directed to a sub combination or variation of a sub
combination.
[0253] Various modifications to the implementations described in
this disclosure may be readily apparent to those skilled in the
art, and the generic principles defined herein may be applied to
other implementations without departing from the spirit or scope of
this disclosure. Thus, the claims are not intended to be limited to
the implementations shown herein, but are to be accorded the widest
scope consistent with this disclosure as well as the principle and
novel features disclosed herein.
* * * * *